Genetic variants within the Wnt/ B-catenin signaling pathway as indicators of bladder cancer clinical outcomes

The genetic factors that influence bladder cancer clinical outcomes are largely unknown. In this clinical outcomes study, I assessed genetic variations in the Wnt/β-catenin stem-cell pathway genes for association with recurrence and progression. A total of 230 SNPS in 40 genes from the Wnt/β-catenin pathway were genotyped in 419 histologically confirmed non-muscle invasive bladder cancer cases. Several significant associations were observed in the clinical outcomes analysis. Under the dominant model WNT8B: rs4919464 (HR: 1.55, 95% CI: 1.17-2.06, P=2.2x10-3) and WNT8B: rs3793771 (HR: 1.54, 95% CI: 1.09-1.62, P=4.6x10-3 ) were statistically significantly associated with an increase risk of recurrence while two other variants, APC2: rs11668593 (HR: 2.50, 95% CI: 1.43-4.35, P=1.2x10-3) and LRP5 : rs312778 (HR: 1.81, 95% CI: 1.23-2.65, P=2.7x10-3), were significantly associated with recurrence risk under the recessive model of inheritance. Four SNPs in the recessive model were associated with an increased risk of progression (AXIN2: rs1544427, LRP5: rs312778, AXIN1: rs370681, AXIN1: rs2301522). LRP5: rs312778 had the most significant increased risk of progression with a 2.68 (95% CI: 1.52-4.72, P=6.4x10-4)-fold increased risk. Stratification analysis based on treatment regimen (transurethral resection (TUR) and Bacillus Calmette-Guérin (BCG)) was also performed. Individuals with at least one variant in AXIN2: rs2007085 were found to have a 2.09 (95% CI: 1.24-3.52, P=5.4x10-3) -fold increased risk of recurrence in those that received TUR only, and no statistically significant effect was seen in those that received BCG. Individuals who received TUR with at least one variant in LEF1: rs10516550 were found to have a 2.26 (95% CI: 1.22-4.18, P=9.7x10-3)-fold increase risk of recurrence and no statistically significant effect was found in individuals who received BCG. Also, the recessive model of LRP6: rs2302684 in TUR only treatment was shown to have a 1.95 (95%CI: 1.18-3.21, P=8.8x10 -3)-fold increased risk of recurrence, and a suggested protective effect associated with a (HR: 0.83, 95% CI: 0.51-1.37, P=0.468) decreased risk of recurrence. Together, these findings implicate the Wnt/β-catenin stem-cell pathway as playing a role in bladder cancer clinical outcomes and have important implications for personalization of future treatment regimens. ^

Customary land tenure, inheritance rules, and smallholder farmers in Malawi

Based on information derived from six villages in various parts of rural Malawi, this paper examines the interrelationship between smallholder strategies to obtain land on the one hand, and customary land tenure and inheritance rules on the other. The paper revealed that although the majority of land transactions followed customary land tenure systems and inheritance rules, in a good number of cases land transactions deviated from the basic rules. One factor behind such deviation was the unique personal relationships that were developed between original landholders and heirs. Another factor was the seemingly increasing cases of returning wives in patrilineal villages. Still another factor was the intensifying land scarcity that encouraged villagers to adopt strategies to obtain land from any source by any means. On the other hand, there were also some cases in which the same land-scarcity problem induced villagers to countercheck the practice of flexible land transfer to prevent their lineage land from being alienated to non-kin members. These facts suggest that, in a land scarce situation, an individual strategy to obtain land rights from any possible sources by deviating from customary rules may occasionally be in conflict with a lineage strategy to countercheck such tendency.

Marriage as women's old age insurance : evidence from migration and land inheritance practices in rural Tanzania

In a traditional system of exogamous and patrilocal marriage prevalent in much of Sub-Saharan Africa, when she marries, a rural woman typically leaves her kin to reside with her husband living outside her natal village. Since a village that allows a widow to inherit her late husband's land can provide her with old age security, single females living outside the village are more likely to marry into the village. Using a natural experimental setting, provided by the longitudinal household panel data drawn from rural Tanzania for the period from 1991 to 2004, during which several villages that initially banned a widow's land inheritance removed this discrimination, this study provides evidence in support of this view, whereby altering a customary land inheritance rules in a village in favor of widows increased the probability of males marrying in that village. This finding suggests that providing rural women with old age protection (e.g., insurance, livelihood protection) has remarkable spatial and temporal welfare effects by influencing their decision to marry.

Better than nothing? : dowry in the absence of the legal protection of women's inheritance rights

The practice of dowry is often thought to be the root cause of the unequal treatment of women in India. For women without inheritance rights, however, dowry may function as their only source of protection. Using a nationwide dataset and exploiting a natural experimental situation, this study explores the effects of dowry on women's empowerment in India, a society where women do not have inheritance rights. In such a society, dowry seems to enhance women's status in the marital household. The effects reverse when women have equal inheritance rights as their brothers. Empirical analysis suggests that the outright ban on dowry that ignores the context may not necessarily benefit women.

Resistance to malathion and lambda-cyhalothrin in Ceratitis capitata (Wiedemann) (Diptera: Tephritidae)

La mosca mediterránea de la fruta, Ceratitis capitata (Wiedemann, 1824) (Diptera: Tephritidae), es una de las plagas de mayor incidencia económica en cítricos y otros frutales a nivel mundial. En España las medidas de control de esta plaga en cítricos, desde mediados de los 90 hasta 2009, se basaron principalmente en el monitoreo de las poblaciones y en la aplicación de tratamientos aéreos y terrestres con malatión cebo. Sin embargo, desde la retirada en la Unión Europea en 2009 de los productos fitosanitarios que contienen malatión, los insecticidas más utilizados para el control de esta plaga han sido lambda-cihalotrina y spinosad. En 2004-2005 se detectaron poblaciones españolas de C. capitata resistentes a malatión. Esta resistencia se ha asociado a una mutación (G328A) en la acetilcolinesterasa (AChE), a una duplicación del gen de la AChE (Ccace2) (una de las copias lleva la mutación G328A) y a resistencia metabólica mediada por esterasas (posiblemente aliesterasas). Sin embargo, cuando se secuenció la aliesterasa CcE7 en individuos de una línea resistente a malatión, no se encontró ninguna de las mutaciones (G137D y/o W251L/S/G) asociadas a resistencia en otras especies, si bien se encontraron otras mutaciones al compararlos con individuos de una línea susceptible. Asimismo, mediante la selección en laboratorio de una línea resistente a malatión (W-4Km) con lambda-cihalotrina, se ha podido obtener una línea resistente a lambda-cihalotrina (W-1K). Finalmente, se ha demostrado la capacidad de esta especie para desarrollar resistencia a spinosad mediante selección en laboratorio. Los múltiples mecanismos de resistencia identificados evidencian el potencial de esta especie para desarrollar resistencia a insecticidas con diferentes modos de acción. Los objetivos de esta tesis doctoral son: 1) evaluar la susceptibilidad de poblaciones españolas de campo de C. capitata a lambda-cihalotrina y dilucidar los mecanismos de resistencia en la línea W-1Kλ; 2) comparar la herencia, el coste biológico y la estabilidad de la resistencia a malatión mediada por la mutación G328A y la duplicación del gen Ccace2 (una de las copias lleva la mutación G328A); y 3) investigar el papel de las mutaciones identificadas en la aliesterasa CcαE7 en la resistencia a malatión. Estos estudios son de utilidad para el desarrollo de estrategias de manejo de la resistencia que puedan prevenir o retrasar la aparición de resistencia y aumentar la sostenibilidad de los insecticidas disponibles para el control de esta plaga. Nuestros resultados indican que las poblaciones españolas de C. capitata analizadas han desarrollado resistencia a lambda-cihalotrina. Los valores de CL50 estimados para las poblaciones recogidas en la Comunidad Valenciana, Cataluña y Andalucía oscilaron entre 129 ppm y 287 ppm, igualando o sobrepasando la concentración recomendada para los tratamientos de campo (125 ppm). Estos resultados contrastan con los obtenidos con tres poblaciones de campo recogidas en Túnez, cuya susceptibilidad fue similar a la de la línea control (C). La línea resistente a lambda-cihalotrina W-1K se continuó seleccionando en el laboratorio alcanzándose unos niveles de resistencia de 205 veces con respecto a la línea C, siendo su CL50 (4224 ppm) más de 30 veces superior a la concentración recomendada para los tratamientos de campo. Esta línea resistente mostró altos niveles de resistencia cruzada a deltametrina (150 veces) y a etofenprox (240 veces), lo que sugiere que el desarrollo de resistencia a lambda-cihalotrina podría comprometer la eficacia de otros piretroides para el control de esta plaga. Hemos demostrado que la resistencia de la línea W-1K a lambda-cihalotrina fue casi completamente suprimida por el sinergista PBO, lo que indica que las enzimas P450 desempeñan un papel muy importante en la resistencia a este insecticida. Sin embargo, tanto las moscas de la línea susceptible C como las de la línea resistente W-1K perdieron inmediatamente la capacidad de caminar (efecto “knock-down”) al ser tratadas tópicamente con lambda-cihalotrina, lo que sugiere que la resistencia no está mediada por alteraciones en la molécula diana (resistencia tipo “kdr”). La resistencia metabólica mediada por P450 fue analizada comparando la expresión de 53 genes CYP (codifican enzimas P450) de las familias CYP4, CYP6, CYP9 y CYP12 en adultos de la línea resistente W-1K y de la línea susceptible C. Nuestros resultados muestran que el gen CYP6A51 (número de acceso GenBank XM_004534804) fue sobreexpresado (13-18 veces) en la línea W-1K. Por otra parte, la expresión del gen CYP6A51 fue inducida tanto en adultos de la línea W-1K como de la línea C al ser tratados con lambda-cihalotrina. Sin embargo, no se obtuvieron diferencias significativas entre la línea susceptible C y la línea resistente W-1K al comparar la cantidad de P450 y la actividad NADPH-citocromo c reductasa presente en fracciones microsomales obtenidas a partir de abdómenes. Asimismo, no hemos podido correlacionar el metabolismo de deltametrina, estimado in vitro mediante la incubación de este insecticida con fracciones microsomales, con el nivel de resistencia a este piretroide observado en los bioensayos con la línea W-1K. Por otro lado, no se encontró ninguna alteración en la región promotora 5'UTR del gen CYP6A51 (-500 pb desde el inicio de la traducción) que pudiera explicar su sobreexpresión en la línea W-1K. Los datos obtenidos sugieren que la resistencia a lambda-cihalotrina en la línea W-1K está mediada por P450 y que la sobreexpresión de CYP6A51 puede desempeñar un papel importante, aunque se necesitan más evidencias para establecer una asociación directa de la resistencia con este gen. Hemos estudiado la herencia, el coste biológico y la estabilidad de la resistencia a malatión mediada por la mutación G328A y la duplicación del gen Ccace2 (una de las copias lleva la mutación G328A). La línea susceptible C, donde no se encuentra la mutación G328A (genotipo S/S), se cruzó con dos isolíneas establecidas para representar genotipos únicos correspondientes a los dos mecanismos de resistencia asociados a la molécula diana: 1) la isolínea 267Y (genotipo R/R) establecida a partir de una pareja que portaba la mutación G328A en homocigosis; 2) la isolínea 306TY (genotipo RS/RS) establecida a partir de una pareja que portaba en homocigosis la duplicación del gen Ccace2. No se realizaron cruces recíprocos, ya que mediante experimentos de hibridación in situ en cromosomas politénicos se pudo comprobar que el locus de la AChE y la duplicación (probablemente en tándem) se localizan en el cromosoma autosómico 2L. La susceptibilidad al malatión de los parentales resistentes (R/R o RS/RS) y susceptibles (S/S), los cruces F1 (S/R, S/RS y R/RS) y los retrocruzamientos indican que la resistencia a malatión es semi-dominante en ambos casos. Sin embargo, nuestros resultados no fueron concluyentes con respecto a la naturaleza monogénica de la resistencia a malatión en estas isolíneas. Por lo tanto, no podemos descartar que otros genes que contribuyan a la resistencia, además de la mutación G328A (isolínea 267Y) y de la duplicación del gen Ccace2 (isolínea 306TY), puedan haber sido seleccionados durante el proceso de selección de 267Y y 306TY. Varios parámetros biológicos fueron evaluados para determinar si estos dos mecanismos de resistencia a malatión suponen un coste biológico para los genotipos resistentes. Individuos con genotipo R/R mostraron un retraso en el tiempo de desarrollo de huevo a pupa, un peso de pupa reducido y una menor longevidad de los adultos, en comparación con los individuos con genotipo S/S. Sin embargo, el peso de pupa de los individuos con genotipo RS/RS fue similar al de los individuos S/S, y su desarrollo de huevo a pupa intermedio entre S/S y R/R. Estas diferencias en el coste biológico pueden estar relacionadas con la reducción de la eficiencia catalítica de la AChE mutada en los individuos R/R, y al efecto compensatorio que la copia no mutada del gen tiene en los individuos RS/RS que portan la duplicación. La estabilidad de la resistencia a malatión mediada por la mutación G328A y la duplicación se analizó mediante el seguimiento de los caracteres de resistencia en la progenie de retrocruzamientos S/R x R/R y S/RS x RS/RS a lo largo de varias generaciones en ausencia de presión de selección con insecticidas. Nuestros resultados muestran que la frecuencia del alelo que porta la mutación G328A disminuyó desde 67,5% en la primera generación del retrocruzamiento S/R x R/R (75% esperado, asumiendo segregación mendeliana y que sólo hay dos alelos: uno mutado y otro no mutado) a 12% después de 10 generaciones. Por el contrario, la frecuencia de la duplicación sólo disminuyó desde 75% en en la primera generación del retrocruzamiento S/RS x RS/RS (75% esperado, asumiendo segregación Mendeliana y que la duplicación segrega como un único alelo) a 50% en el mismo período, lo que indica que la duplicación es más estable que la mutación. Asimismo, se analizó la presencia de la mutación y de la duplicación en poblaciones de campo recogidas en seis localidades en 2004-2007, cuando todavía se usaba el malatión, y se comparó con poblaciones recogidas en los mismos campos en 2010, un año después de la prohibición del malatión en la Unión Europea. La frecuencia media del genotipo susceptible (S/S) aumentó del 55,9% en el período 2004-2007 a 70,8% en 2010, mientras que la frecuencia de los genotipos portadores de la mutación en homocigosis o heterocigosis (R/R y S/R) disminuyó del 30,4 al 9,2%, los que llevan la duplicación en homocigosis o heterocigosis (RS/RS y S/RS) aumentaron levemente desde 12,8 hasta 13,3%, y los que llevan a la vez la mutación y la duplicación (R/RS) también aumentaron del 1 al 6,7%. Estos resultados son consistentes con que la duplicación del gen Ccace2 (con una copia con la mutación G328A y la otra copia no mutada) es más ventajosa que la mutación G328A por si sola, ya que la duplicación mantiene los niveles de resistencia a la vez que limita el coste biológico. Para investigar la asociación entre la resistencia a malatión y las mutaciones encontradas previamente en CcE7, hemos generado isolíneas con mutaciones específicas seleccionadas por su ubicación próxima a la entrada al centro activo de la enzima. La isolínea Sm2 (procedente de una hembra heterocigota para la mutación V96L y un macho homocigoto para el alelo no mutado) mantuvo altos niveles de resistencia a malatión, incluso después de 30 generaciones sin presión de selección. Por el contrario, la isolínea 267Y (compuesta por individuos homocigotos para la mutación L267Y) y la línea 306TY (compuesta por individuos homocigotos para la doble mutación R306T-N307Y) mostraron una reducción significativa en los niveles de resistencia. También hemos encontrado que la resistencia a malatión de la línea Sm2 fue parcialmente revertida por DEF y TPP, y que Sm2 mostró una reducción significativa en la actividad MTB, como se ha descrito en otras especies que muestran resistencia específica a malatión mediada por aliesterases. Además, fue posible asociar la presencia de la mutación V96L en individuos de la línea Sm2 con supervivencia a una concentración discriminante de malatión (5,000 ppm) y con una baja actividad MTB. Estos resultados sugieren una posible relación entre la mutación V96L en la aliesterasa CcE7 y la resistencia a malatión, aunque todavía no se puede concluir que la resistencia es causada por esta mutación, siendo necesarios más estudios para comprobar su contribución a la resistencia. En conclusión, se ha encontrado por primera vez resistencia a lambda-cihalotrina en poblaciones de campo de C. capitata, y nuestros resultados indican que las P450 son el principal mecanismo de resistencia en la línea W-1K. Esta situación se suma al caso previamente descrito de resistencia en campo a malatión asociada a la mutación G328A, a la duplicación del gen Ccace2 (una de las copias lleva la mutación G328A) y a resistencia metabólica mediada por esterasas. Nuestros resultados también indican que la alteración de la molécula diana AChE parece ser responsable de un cierto nivel de resistencia a malatión en C. capitata, que puede ser estimada como aproximadamente 25-40 veces para la mutación G328A y 40-60 veces para la duplicación; mientras que la resistencia mediada por esterasas y que ha sido asociada en este estudio con la mutación V96L en CcE7 puede conferir un efecto multiplicativo (por un factor de 5 a 10) aumentando la resistencia a malatión a 200-400 veces. Por otra parte, hemos demostrado que los insectos resistentes que llevan la duplicación tienen un coste biológico menor y muestran una estabilidad mayor que aquellos con la mutación G328A en ausencia de presión de selección con insecticidas. Esto representa un escenario en el que los genotipos con la duplicación permanecerán en el campo en frecuencias bajas a moderadas, pero podrían ser seleccionados rápidamente si se utilizan malatión u otros insecticidas que muestren resistencia cruzada. Estos resultados tienen importantes implicaciones para los programas de manejo de la resistencia, ya que el repertorio de insecticidas eficaces para el control de C. capitata es cada vez más limitado. Además, la coexistencia de múltiples mecanismos de resistencia en poblaciones de campo ofrece el potencial para desarrollar resistencia frente a otros insecticidas disponibles para el control de esta plaga. Estrategias para de manejo de la resistencia basadas en la alternancia de insecticidas con diferentes modos de acción, y su combinación con otros métodos de control, deben ser implementadas para evitar el desarrollo de resistencia en campo. ABSTRACT The Mediterranean fruit fly (Medfly), Ceratitis capitata (Wiedemann, 1824) (Diptera: Tephritidae), is one of the most economically damaging pests of citrus and other fruit crops worldwide. Control measures in citrus crops in Spain from the mid 90's to 2009 were mainly based on field monitoring of population levels and aerial and ground treatments with malathion bait sprays. However, since the withdrawal of phytosanitary products containing malathion in the European Union in 2009, lambda-cyhalothrin and spinosad have become the most widely used insecticides for the control of this pest. Resistance to malathion was found in Spanish field populations of C. capitata in 2004-2005. This resistance has been associated with a mutation G328A in the acetylcholinesterase (AChE), a duplication of the AChE gene (Ccace2) (one of the copies bearing the mutation G328A), and metabolic resistance mediated by esterases (probably aliesterases). However, when the gene of the aliesterase CcE7 was sequenced in individuals from a malathion resistant strain of C. capitata, none of the known G137D and/or W251L/S/G mutations associated to resistance in other species were found, though other mutations were detected when compared with individuals from a susceptible strain. Noteworthy, a lambda-cyhalothrin resistant strain (W-1K) was obtained by selecting a field-derived malathion resistant strain (W-4Km) with lambda-cyhalothrin. Moreover, it has also been demonstrated the capacity of this species to develop resistance to spinosad by laboratory selection. The multiple resistance mechanisms identified highlight the potential of this species to develop resistance to insecticides with different modes of action. The objectives of this PhD Thesis are: 1) to assess the susceptibility of Spanish field populations of C. capitata to lambda-cyhalothrin and to elucidate the resistance mechanisms in the W-1Kλ strain; 2) to compare the inheritance, fitness cost and stability of the malathion resistance mediated by the G328A mutation and the duplication of the Ccace2 gene (with one of the copies bearing the mutation G328A); and 3) to investigate the role of the aliesterase CcαE7 mutations in malathion resistance. All these studies will be of use for devising proactive resistance management strategies that could prevent or delay resistance development and would increase the sustainability of the insecticides available for Medfly control. Our results indicate that Spanish field populations of C. capitata have developed resistance to lambda-cyhalothrin. The LC50 values estimated for populations collected at Comunidad Valenciana, Cataluña and Andalucía ranged from 129 ppm to 287 ppm, equaling or overpassing the recommended concentration for field treatments (125 ppm). These results contrast with those obtained with three different Tunisian field populations, whose susceptibility was similar to that of the control (C) strain. The lambda-cyhalothrin resistant W-1K strain has been further selected to achieve a 205-fold resistance compared to the C strain, being its LC50 (4,224 ppm) more than 30 times higher than the recommended concentration for field applications. This resistant strain showed high levels of cross-resistance to deltamethrin (150-fold) and etofenprox (240-fold), suggesting that the development of resistance to lambda-cyhalothrin may compromise the effectiveness of other pyrethroids for the control of this species. We have shown that the resistance of the W-1K strain to lambda-cyhalothrin was almost completely suppressed by the synergist PBO, indicating that P450 enzymes play a very important role in resistance to this insecticide. However, both susceptible C and resistant W-1K flies were knocked down after topical treatment with lambda-cyhalothrin, suggesting that kdr resistance mediated by alterations of the target site is not playing a major role. Metabolic resistance mediated by P450 was further analyzed by comparing the expression of 53 genes of the families CYP4, CYP6, CYP9 and CYP12 in adults flies from the resistant W-1K and the susceptible C strains. We found that the gene CYP6A51 (GenBank accession number XM_004534804) was overexpressed (13-18-fold) in the W-1K strain. Moreover, the expression of the CYP6A51 gene was induced when adults of the W-1K and C strains were treated with lambda-cyhalothrin. However, no significant differences were obtained between susceptible C and resistant W-1K strains for the quantity of P450 and for the activity of NADPH- cytochrome c reductase measured in microsomal fractions obtained from abdomens. Moreover, we failed to correlate the metabolism of deltamethrin, analyzed in vitro by incubating this insecticide with microsomal fractions, with the resistance level against this pyrethroid observed in bioassays with W-1K. The sequencing of the 5´UTR region of the CYP6A51 gene failed in finding an alteration in the promoter region (-500 bp from translation start site) that could explain overexpression in the W-1K strain. All data obtained suggest that resistance to lambda-cyhalothrin in the W- 1K strain is mediated by P450 and that overexpression of CYP6A51 may play a major role, although further evidences are needed to establish a direct association of resistance with this gene. We have studied the inheritance, fitness cost and stability of the malathion resistance mediated by the G328A mutation and the duplication of the Ccace2 gene (with one of the copies bearing the mutation G328A). The malathion-susceptible C strain where the G328A mutation is not found (S/S genotype) was crossed with two isolines established to represent unique genotypes corresponding to the two target-site resistance mechanisms: 1) the 267Y isoline (genotype R/R) was established from a couple bearing the mutation G328A in homozygosis; and 2) the 306TY isoline (genotype RS/RS) was established from a couple being homozygous for the duplication of the Ccace2 gene. Reciprocal crosses have not been performed, since in situ hybridization on polythene chromosomes showed that the AChE locus and the duplication (most probably in tandem) are placed at the autosomal chromosome 2L. Mortality responses to malathion of resistant isolines (R/R or RS/RS) and susceptible (S/S) genotypes, F1 crosses (S/R, S/RS, and R/RS), and the back-crosses indicated that resistance to malathion is inherited as a semi-dominant trait in both cases. However, our results were not conclusive about the monogenic nature of the resistance to malathion in these isolines. Thus, we can not discard that other genes contributing to resistance, in addition to the mutation G328A (isoline 267Y) and the duplication of the Ccace2 gene (isoline 306TY), may have been selected during the selection process of 267Y and 306TY. Several biological parameters were evaluated to determine if these two malathion resistance mechanisms impose a fitness cost for resistant genotypes. Individuals with genotype R/R have a reduced fitness in terms of developmental time from egg to pupa, pupal weight and adult longevity, when compared to susceptible individuals (genotype S/S). Interestingly, the fitness cost was substantially diminished in individuals with genotype RS/RS. These differences in fitness may be related to the reduction of the catalytic efficiency of mutated AChE in individuals R/R, and the compensatory effect that the non-mutated copy of the gene has on individuals RS/RS bearing the duplication. The stability of malathion reistance associated with the mutation G328A or the duplication was analyzed by following these resistant traits in the progeny of the back-crosses S/RS x RS/RS and S/R x R/R over consecutive generations in the absence of insecticide selection pressure. Our results show that the frequency of the allele bearing the mutation G328A decreased from 67.5% at the first generation of the back-cross S/R x R/R (75% expected, assuming Mendelian segregation and that there are only two alleles: one mutated and the other non-mutated) to 12% after 10 generations. By contrast, the frequency of the duplication only declined from 75% at the first generation of the back-cross S/RS x RS/RS (75% expected, assuming Mendelian segregation and that the duplication segregates as an unique allele) to 50% in the same period, indicating that the duplication is more stable than the mutation. The presence of the mutation and the duplication was analyzed in field populations collected in six localities in 2004-2007, when malathion was still used, and compared to populations collected in the same fields in 2010, one year after the prohibition of malathion in the European Union. The average frequency of the susceptible genotype (S/S) increased from 55.9% in the period 2004-2007 to 70.8% in 2010, whereas the frequency of those genotypes carrying the mutation in homozygosis or heterozygosis (R/R and S/R) declined from 30.4 to 9.2%, those carrying the duplication in homozygosis or heterozygosis (RS/RS and S/RS) increased slightly from 12.8 to 13.3%, and those carrying both the mutation and the duplication (R/RS) also increased from 1 to 6.7%. These results are consistent with the duplication of the Ccace2 gene (with one of the copies bearing the mutation G328A and the other copy non-mutated) being more advantageous than the G328A mutation alone by maintaining resistance while restoring part of the fitness. In order to investigate the association of malathion resistance with mutations previously found in the aliesterase CcE7, we have generated isolines bearing specific mutations selected by their putative location near the upper part of the active site gorge of the enzyme. The isoline Sm2 (originating from a female heterozygous for the mutation V96L and a male homozygous for the non-mutated allele) kept high levels of resistance to malathion, even after 30 generations without selection pressure. On the contrary, the isoline 267Y (composed by individuals homozygous for the mutation L267Y) and the strain 306TY (composed by homozygous for the double mutation R306T-N307Y) showed a significant reduction in the levels of resistance. We have found also that resistance to malathion in the Sm2 isoline was partially reverted by DEF and TPP, and that Sm2 showed a significant reduction in MTB activity, as reported for other species showing malathion-specific resistance mediated by aliesterases. Besides, it was possible to associate the presence of the mutation V96L in individuals from the Sm2 isoline with both survival to a discriminating concentration of malathion (5,000 ppm) and low MTB activity. Our results point out to a possible connection betwen the mutation V96L in the aliesterase CcE7 and resistance to malathion, though we can not yet conclude that the resistance is caused by the mutation, being needed further work to understand its contribution to resistance. In conclusion, resistance to lambda-cyhalothrin has been found for the first time in field populations of C. capitata, and metabolic resistance mediated by P450 appears to be the main resistance mechanism in the resistant strain W-1K. These findings add to the previously reported case of field resistance to malathion, associated to the G328A mutation and the duplication of the Ccace2 gene (with one of the copies bearing the mutation G328A) and to metabolic resistance mediated by esterases. Our results also indicate that altered target site AChE appears to be responsible for a certain level of resistance to malathion in C. capitata, that can be estimated as about 25-40-fold for the mutation G328A and 40-60-fold for the duplication; whereas metabolic resistance mediated by esterases and associated in this study with the mutation V96L in CcE7 may confer a multiplicative effect (by a factor of 5 to10) increasing malathion resistance to 200-400-fold. Moreover, we have shown that resistant insects carrying the duplication have better fitness and exhibit a higher stability than those with the mutation G328A in the absence of insecticide pressure. This represents a scenario where genotypes with the duplication will remain in the field at low to moderate frequencies, but could be rapidly selected if malathion or other insecticides showing cross-resistance are used. These findings have important implications for resistance management programs, as the repertoire of effective insecticides for C. capitata control is becoming very limited. Besides, multiple resistance mechanisms coexisting in field populations provide the potential to develop resistance to other available insecticides for the control of this pest. Appropriate resistance management strategies based on the alternation of insecticides with different modes of action, and their combination with other control methods, must then be implemented to avoid the evolution of resistance in the field.

Recessive and dominant mutations in the ethylene biosynthetic gene ACS5 of Arabidopsis confer cytokinin insensitivity and ethylene overproduction, respectively

We identified a set of cytokinin-insensitive mutants by using a screen based on the ethylene-mediated triple response observed after treatment with low levels of cytokinins. One group of these mutants disrupts ACS5, a member of the Arabidopsis gene family that encodes 1-aminocyclopropane-1-carboxylate synthase, the first enzyme in ethylene biosynthesis. The ACS5 isoform is mainly responsible for the sustained rise in ethylene biosynthesis observed in response to low levels of cytokinin and appears to be regulated primarily by a posttranscriptional mechanism. Furthermore, the dominant ethylene-overproducing mutant eto2 was found to be the result of an alteration of the carboxy terminus of ACS5, suggesting that this domain acts as a negative regulator of ACS5 function.

A CDKN2-like polymorphism in Xiphophorus LG V is associated with UV-B-induced melanoma formation in platyfish–swordtail hybrids

The genetic basis of spontaneous melanoma formation in spotted dorsal (Sd) Xiphophorus platyfish–swordtail hybrids has been studied for decades, and is adequately explained by a two-gene inheritance model involving a sex-linked oncogene, Xmrk, and an autosomal tumor suppressor, DIFF. The Xmrk oncogene encodes a receptor tyrosine kinase related to EGFR; the nature of the DIFF tumor suppressor gene is unknown. We analyzed the genetic basis of UV-B-induced melanoma formation in closely related, spotted side platyfish–swordtail hybrids, which carry a different sex-linked pigment pattern locus, Sp. We UV-irradiated spotted side Xiphophorus platyfish–swordtail backcross hybrids to induce melanomas at frequencies 6-fold higher than occur spontaneously in unirradiated control animals. To identify genetic determinants of melanoma susceptibility in this UV-inducible Xiphophorus model, we genotyped individual animals from control and UV-irradiated experimental regimes using allozyme and DNA restriction fragment length polymorphisms and tested for joint segregation of genetic markers with pigmentation phenotype and UV-induced melanoma formation. Joint segregation results show linkage of a CDKN2-like DNA polymorphism with UV-B-induced melanoma formation in these hybrids. The CDKN2-like polymorphism maps to Xiphophorus linkage group V and exhibits recombination fractions with ES1 and MDH2 allozyme markers consistent with previous localization of the DIFF tumor suppressor locus. Our results indicate that the CDKN2-like sequence we have cloned and mapped is a candidate for the DIFF tumor suppressor gene.

Global variation in the genetic and biochemical basis of diamondback moth resistance to Bacillus thuringiensis

Insecticidal proteins from the soil bacterium Bacillus thuringiensis (Bt) are becoming a cornerstone of ecologically sound pest management. However, if pests quickly adapt, the benefits of environmentally benign Bt toxins in sprays and genetically engineered crops will be short-lived. The diamondback moth (Plutella xylostella) is the first insect to evolve resistance to Bt in open-field populations. Here we report that populations from Hawaii and Pennsylvania share a genetic locus at which a recessive mutation associated with reduced toxin binding confers extremely high resistance to four Bt toxins. In contrast, resistance in a population from the Philippines shows multilocus control, a narrower spectrum, and for some Bt toxins, inheritance that is not recessive and not associated with reduced binding. The observed variation in the genetic and biochemical basis of resistance to Bt, which is unlike patterns documented for some synthetic insecticides, profoundly affects the choice of strategies for combating resistance.

The yeast Cac1 protein is required for the stable inheritance of transcriptionally repressed chromatin at telomeres

Cac1p is a subunit of yeast chromatin assembly factor I (yCAF-I) that is thought to assemble nucleosomes containing diacetylated histones onto newly replicated DNA [Kaufman, P. D., Kobayashi, R. & Stillman, B. (1997) Genes Dev. 11, 345–357]. Although cac1Δ cells could establish and maintain transcriptional repression at telomeres, they displayed a reduced heritability of the repressed state. Single-cell analysis revealed that individual cac1Δ cells switch from transcriptionally “off” to transcriptionally “on” more often per cell cycle than wild-type cells. In addition, cac1Δ cells were defective for transcriptional silencing near internal tracts of C1–3A sequence, but they showed no defect in silencing at the silent mating type loci when analyzed by a reverse transcription–PCR assay. Despite the loss of transcriptional silencing at telomeres and internal C1–3A tracts, subtelomeric DNA was organized into nucleosomes that had all of the features characteristic of silent chromatin, such as hypoacetylation of histone H4 and protection from methylation by the Escherichia coli dam methylase. Thus, these features of silent chromatin are not sufficient for stable maintenance of a silent chromatin state. We propose that the inheritance of the transcriptionally repressed state requires the specific pattern of histone acetylation conferred by yCAF-I-mediated nucleosome assembly.

Mitochondrial Inheritance Is Delayed in Saccharomyces cerevisiae Cells Lacking the Serine/Threonine Phosphatase PTC1

In wild-type yeast mitochondrial inheritance occurs early in the cell cycle concomitant with bud emergence. Cells lacking the PTC1 gene initially produce buds without a mitochondrial compartment; however, these buds later receive part of the mitochondrial network from the mother cell. Thus, the loss of PTC1 causes a delay, but not a complete block, in mitochondrial transport. PTC1 encodes a serine/threonine phosphatase in the high-osmolarity glycerol response (HOG) pathway. The mitochondrial inheritance delay in the ptc1 mutant is not attributable to changes in intracellular glycerol concentrations or defects in the organization of the actin cytoskeleton. Moreover, epistasis experiments with ptc1Δ and mutations in HOG pathway kinases reveal that PTC1 is not acting through the HOG pathway to control the timing of mitochondrial inheritance. Instead, PTC1 may be acting either directly or through a different signaling pathway to affect the mitochondrial transport machinery in the cell. These studies indicate that the timing of mitochondrial transport in wild-type cells is genetically controlled and provide new evidence that mitochondrial inheritance does not depend on a physical link between the mitochondrial network and the incipient bud site.

Expression of the Recessive Glomerulosclerosis Gene Mpv17 Regulates MMP-2 Expression in Fibroblasts, the Kidney, and the Inner Ear of Mice

The recessive mouse mutant Mpv17 is characterized by the development of early-onset glomerulosclerosis, concomitant hypertension, and structural alterations of the inner ear. The primary cause of the disease is the loss of function of the Mpv17 protein, a peroxisomal gene product involved in reactive oxygen metabolism. In our search of a common mediator exerting effects on several aspects of the phenotype, we discovered that the absence of the Mpv17 gene product causes a strong increase in matrix metalloproteinase 2 (MMP-2) expression. This was seen in the kidney and cochlea of Mpv17-negative mice as well as in tissue culture cells derived from these animals. When these cells were transfected with the human Mpv17 homolog, an inverse causal relationship between Mpv17 and MMP-2 expression was established. These results indicate that the Mpv17 protein plays a crucial role in the regulation of MMP-2 and suggest that enhanced MMP-2 expression might mediate the mechanisms leading to glomerulosclerosis, inner ear disease, and hypertension in this model.

Biparental Inheritance of γ-Tubulin during Human Fertilization: Molecular Reconstitution of Functional Zygotic Centrosomes in Inseminated Human Oocytes and in Cell-free Extracts Nucleated by Human Sperm

Human sperm centrosome reconstitution and the parental contributions to the zygotic centrosome are examined in mammalian zygotes and after exposure of spermatozoa to Xenopus laevis cell-free extracts. The presence and inheritance of the conserved centrosomal constituents γ-tubulin, centrin, and MPM-2 (which detects phosphorylated epitopes) are traced, as is the sperm microtubule-nucleating capability on reconstituted centrosomes. γ-Tubulin is biparentally inherited in humans (maternal >> than paternal): Western blots detect the presence of paternal γ-tubulin. Recruitment of maternal γ-tubulin to the sperm centrosome occurs after sperm incorporation in vivo or exposure to cell-free extract, especially after sperm “priming” induced by disulfide bond reduction. Centrin is found in the proximal sperm centrosomal region, demonstrates expected calcium sensitivity, but appears absent from the zygotic centrosome after sperm incorporation or exposure to extracts. Sperm centrosome phosphorylation is detected after exposure of primed sperm to egg extracts as well as during the early stages of sperm incorporation after fertilization. Finally, centrosome reconstitution in cell-free extracts permits sperm aster microtubule assembly in vitro. Collectively, these results support a model of a blended zygotic centrosome composed of maternal constituents attracted to an introduced paternal template after insemination.

A novel modifier gene for plasma von Willebrand factor level maps to distal mouse chromosome 11

Type 1 von Willebrand disease (VWD), characterized by reduced levels of plasma von Willebrand factor (VWF), is the most common inherited bleeding disorder in humans. Penetrance of VWD is incomplete, and expression of the bleeding phenotype is highly variable. In addition, plasma VWF levels vary widely among normal individuals. To identify genes that influence VWF level, we analyzed a genetic cross between RIIIS/J and CASA/Rk, two strains of mice that exhibit a 20-fold difference in plasma VWF level. DNA samples from F2 progeny demonstrating either extremely high or extremely low plasma VWF levels were pooled and genotyped for 41 markers spanning the autosomal genome. A novel locus accounting for 63% of the total variance in VWF level was mapped to distal mouse chromosome 11, which is distinct from the murine Vwf locus on chromosome 6. We designated this locus Mvwf for “modifier of VWF.” Additional genotyping of as many as 2407 meioses established a high resolution genetic map with gene order Cola1-Itg3a-Ngfr-Mvwf/Gip-Hoxb9-Hoxb1-Cbx·rs2-Cox5a-Gfap. The Mvwf candidate interval between Ngfr and Hoxb9 is ≈0.5 centimorgan (cM). These results demonstrate that a single dominant gene accounts for the low VWF phenotype of RIIIS/J mice in crosses with several other strains. The pattern of inheritance suggests a gain-of-function mutation in a unique component of VWF biosynthesis or processing. Characterization of the human homologue for Mvwf may have relevance for a subset of type 1 VWD cases and may define an important genetic factor modifying penetrance and expression of mutations at the VWF locus.

A human model for multigenic inheritance: Phenotypic expression in Hirschsprung disease requires both the RET gene and a new 9q31 locus

Reduced penetrance in genetic disorders may be either dependent or independent of the genetic background of gene carriers. Hirschsprung disease (HSCR) demonstrates a complex pattern of inheritance with ≈50% of familial cases being heterozygous for mutations in the receptor tyrosine kinase RET. Even when identified, the penetrance of RET mutations is only 50–70%, gender-dependent, and varies with the extent of aganglionosis. We searched for additional susceptibility genes which, in conjunction with RET, lead to phenotypic expression by studying 12 multiplex HSCR families. Haplotype analysis and extensive mutation screening demonstrated three types of families: six families harboring severe RET mutations (group I); and the six remaining families, five of which are RET-linked families with no sequence alterations and one RET-unlinked family (group II). Although the presence of RET mutations in group I families is sufficient to explain HSCR inheritance, a genome scan reveals a new susceptibility locus on 9q31 exclusively in group II families. As such, the gene at 9q31 is a modifier of HSCR penetrance. These observations imply that identification of new susceptibility factors in a complex disease may depend on classification of families by mutational type at known susceptibility genes.

A first trial of retrospective collaboration for positional cloning in complex inheritance: Assay of the cytokine region on chromosome 5 by the Consortium on Asthma Genetics (COAG)

The central problem of complex inheritance is to map oligogenes for disease susceptibility, integrating linkage and association over samples that differ in several ways. Combination of evidence over multiple samples with 1,037 families supports loci contributing to asthma susceptibility in the cytokine region on 5q [maximum logarithm of odds (lod) = 2.61 near IL-4], but no evidence for atopy. The principal problems with retrospective collaboration on linkage appear to have been solved, providing far more information than a single study. A multipoint lod table evaluated at commonly agreed reference loci is required for both collaboration and metaanalysis, but variations in ascertainment, pedigree structure, phenotype definition, and marker selection are tolerated. These methods are invariant with statistical methods that increase the power of lods and are applicable to all diseases, motivating collaboration rather than competition. In contrast to linkage, positional cloning by allelic association has yet to be extended to multiple samples, a prerequisite for efficient combination with linkage and the greatest current challenge to genetic epidemiology.