Pesquisa de marcadores para os genes da cadeia pesada da beta-miosina cardíaca e da proteína C de ligação à miosina em familiares de pacientes com cardiomiopatia hipertrófica

OBJETIVO: Estudar os marcadores moleculares para os genes da cadeia pesada da beta-miosina cardíaca e da proteína-C de ligação à miosina em familiares de portadores de cardiomiopatia hipertrófica. MÉTODOS: Foram estudadas 12 famílias que realizaram anamnese, exame físico, eletrocardiograma, ecocardiograma e coleta de sangue para o estudo genético através da reação em cadeia da polimerasse. RESULTADOS: Dos 227 familiares 25% eram acometidos, sendo 51% do sexo masculino com idade média de 35±19 (2 a 95) anos. A análise genética mostrou ligação com o gene da b-miosina cardíaca em uma família e, em outra, ligação com o gene da proteína C de ligação à miosina. Em cinco famílias foram excluídas ligações com os dois genes; em duas, a ligação com o gene da proteína C de ligação à miosina, porém para o gene da b-miosina os resultados foram inconclusivos; em duas famílias os resultados foram inconclusivos para os dois genes e em uma foi excluída ligação para o gene da b-miosina mas ficou inconclusivo para o gene da proteína C de ligação à miosina. CONCLUSÃO: Em nosso meio, talvez predominem outros genes que não aqueles descritos na literatura, ou que existam outras diferenças genéticas relacionadas com a origem de nossa população e/ou fatores ambientais.

Búsqueda e identificación de polimorfismos en genes asociados con una efectividad farmacológica disminuida. Caracterización molecular, hallazgos bioquímicos y clínicos y su respectiva correlación con la respuesta farmacológica en el tratamiento de enfermedades crónicas e infecciosas

En medicina, es frecuente encontrar diferencias en la respuesta de una misma droga en distintos individuos. Algunos factores que contribuyen con esta respuesta diferencial incluyen variables como edad, biodisponilidad y absorción gastro-intestinal de los medicamentos, interacción entre fármacos, hábitos alimentarios y factores genéticos. Dentro de los factores genéticos, encontramos polimorfismos genéticos que afectan la absorción, el metabolismo y el transporte de fármacos, como así también receptores de los mismos y/o, la interacción con otros genes. Algunos polimorfismos genéticos que contribuyen a una respuesta farmacológica disminuida han sido descriptos en patologías como, la hipercolesterolemia, artritis reumatoidea, cáncer, diabetes, hipertensión arterial, esquizofrenia, asma, hepatitis C y SIDA, entre otras. Nuestro estudio pretende: I) Identificar polimorfismos en genes que codifican para enzimas metabolizadoras de fármacos, para canales iónicos y, para receptores de fármacos (como por ejemplo polimorfismos en el receptor beta 2 adrenérgico en pacientes tratados con salbutamol que presentan bronquiolitis). II) Identificar la presencia de un polimorfismo en el gen CES 1 que codifica para la enzima carboxilesterasa 1 (en una población hospitalaria), que participa en la activación de la prodroga oseltamivir utilizada en el tratamiento de la Gripe A (H1N1). Los resultados obtenidos podrán ser de gran utilidad en el tratamiento médico, ya que permitirá optimizar el uso de fármacos, disminuir los efectos secundarios causados por los mismos, y proponer el empleo de otros fármacos

Expresión de genes placentarios y análisis de sus productos proteicos: Relación con genes homólogos bacterianos

La diferenciación celular es la resultante del control de la expresión de un conjunto de genes específicos que determinan las características funcionales y morfológicas de una célula. Diversas causas inductoras de tumores alteran el control genético en células completamente diferenciadas, promoviendo entre los numerosos disturbios moleculares, la activa expresión de genes que deberían estar reprimidos. En las etapas prematuras de su desarrollo la placenta humana posee propiedades biológicas que se asemejan a las de un tumor, como por ejemplo el activo crecimiento tisular, la invasividad y la expresión de proteínas que no se encuentran habitualmente en tejidos normales sino solamente en condiciones de transformación tumoral. En condiciones normales sintetiza y secreta una variedad de esteroides (progesterona y estradiol), enzimas involucradas en su síntesis (3beta-SDH, aromatasa), hormonas peptídicas (HCG, HPL) y proteínas específicas del embarazo, entre ellas las denominadas PSG. Objetivos Generales: Comprende el estudio de la expresión, regulación y probable funcionalidad de genes placentales tanto en condiciones fisiológicas como patológicas. Se caracterizarán secuencias de DNA y proteínas que intervienen en el control de esos genes. Se analizarán algunos genes que determinan la patogénesis bacteriana. Objetivos Específicos. Comprende las siguientes actividades: Tema 1: Expresión y funcionalidad de genes PSG y de 3beta-SDH. Tema 2: Expresión diferencial de genes en tumores trofoblásticos (Mola Hidatiforme). Tema 3: Caracterización topográfica-funcional de 3beta-SDH. Relación con otras enzimas esteroidogénicas. Tema 4: Estudios de genes y productos de organismos procariotas. Tema 5: Aplicaciones de la Biología Molecular en: a) Diagnóstico de enfermedades Hematológicas y Endocrinológicas. b) Tipificación de bacterias patógenas

Búsqueda e identificación de polimorfismos en genes asociados con una efectividad farmacológica disminuida. Caracterización molecular, hallazgos bioquímicos y clínicos y su respectiva correlación con la respuesta farmacológica en el tratamiento de enfermedades crónicas e infecciosas.

En medicina, es frecuente encontrar diferencias en la respuesta de una misma droga en distintos individuos. Algunos factores que contribuyen con esta respuesta diferencial incluyen variables como edad, biodisponilidad y absorción gastro-intestinal de los medicamentos, interacción entre fármacos, hábitos alimentarios y factores genéticos. Dentro de los factores genéticos, encontramos polimorfismos genéticos que afectan la absorción, el metabolismo y el transporte de fármacos, como así también receptores de los mismos y/o, la interacción con otros genes. Algunos polimorfismos genéticos que contribuyen a una respuesta farmacológica disminuida han sido descriptos en patologías como, la hipercolesterolemia, artritis reumatoidea, cáncer, diabetes, hipertensión arterial, esquizofrenia, asma, hepatitis C y SIDA, entre otras. Nuestro estudio pretende: I) Identificar polimorfismos en genes que codifican para enzimas metabolizadoras de fármacos, para canales iónicos y, para receptores de fármacos (como por ejemplo polimorfismos en el receptor beta 2 adrenérgico en pacientes tratados con salbutamol que presentan bronquiolitis). II) Identificar la presencia de un polimorfismo en el gen CES 1 que codifica para la enzima carboxilesterasa 1 (en una población hospitalaria), que participa en la activación de la prodroga oseltamivir utilizada en el tratamiento de la Gripe A (H1N1). Los resultados obtenidos podrán ser de gran utilidad en el tratamiento médico, ya que permitirá optimizar el uso de fármacos, disminuir los efectos secundarios causados por los mismos, y proponer el empleo de otros fármacos.

Amplificação dos genes que codificam a endotelina-1 e seus receptores em valvas mitrais reumáticas

FUNDAMENTO: As cardiopatias são doenças de alta prevalência, sendo a cardite reumática uma doença de grande relevância em países em desenvolvimento. As alterações em câmaras cardíacas esquerdas se associam à disfunção endotelial, com aumento dos níveis de endotelina-1 (ET-1) e consequências sobre a circulação pulmonar, muitas vezes determinando a hipertensão pulmonar (HP). No entanto, a presença de ET-1 e seus receptores na própria valva mitral, promovendo alterações vasculares pulmonares e aumentando a deformação valvar reumática, ainda é um assunto não abordado na literatura. OBJETIVO: Determinar, mediante técnicas moleculares, a expressão dos genes da endotelina e dos seus receptores em valvas mitrais reumáticas. MÉTODOS: 27 pacientes submetidos à troca valvar mitral tiveram seu tecido valvar analisado, a fim de determinar a presença de genes de ET-1 e seus receptores A e B. Foram feitas análises histológica e molecular das valvas (divididas em fragmentos M1, M2 e M3) e colhidos dados clínicos e epidemiológicos dos pacientes. Foram divididos em três grupos: valvopatia mitral, mitroaórtica e pacientes reoperados. RESULTADOS: O estudo mostrou a manifestação do gene da ET-1 em 40,7% dos espécimes e de seu receptor A em todas as amostras, com manifestação minoritária do gene do receptor B (22,2%). CONCLUSÃO: Todos os pacientes expressaram a presença do gene do receptor A. Não houve diferença estatística quanto à gravidade da doença, expressa em classe funcional, e aos subgrupos estudados (valvopatas mitrais, mitroaórticos e pacientes reoperados), ou quanto à expressão dos genes da ET-1 e seus receptores entre os subgrupos estudados (valvopatas mitrais, mitroaórticos e pacientes reoperados).

The 16p11.2 locus modulates brain structures common to autism, schizophrenia and obesity

Anatomical structures and mechanisms linking genes to neuropsychiatric disorders are not deciphered. Reciprocal copy number variants at the 16p11.2 BP4-BP5 locus offer a unique opportunity to study the intermediate phenotypes in carriers at high risk for autism spectrum disorder (ASD) or schizophrenia (SZ). We investigated the variation in brain anatomy in 16p11.2 deletion and duplication carriers. Beyond gene dosage effects on global brain metrics, we show that the number of genomic copies negatively correlated to the gray matter volume and white matter tissue properties in cortico-subcortical regions implicated in reward, language and social cognition. Despite the near absence of ASD or SZ diagnoses in our 16p11.2 cohort, the pattern of brain anatomy changes in carriers spatially overlaps with the well-established structural abnormalities in ASD and SZ. Using measures of peripheral mRNA levels, we confirm our genomic copy number findings. This combined molecular, neuroimaging and clinical approach, applied to larger datasets, will help interpret the relative contributions of genes to neuropsychiatric conditions by measuring their effect on local brain anatomy.Molecular Psychiatry advance online publication, 25 November 2014; doi:10.1038/mp.2014.145.

Association mapping of candidate genes for drought tolerance in Mediterranean durum wheat landraces

Treball al que se li ha concedit el premi al millor póster del congrés

Reduced Prostasin (CAP1/PRSS8) Activity Eliminates HAI-1 and HAI-2 Deficiency-Associated Developmental Defects by Preventing Matriptase Activation.

Loss of either hepatocyte growth factor activator inhibitor (HAI)-1 or -2 is associated with embryonic lethality in mice, which can be rescued by the simultaneous inactivation of the membrane-anchored serine protease, matriptase, thereby demonstrating that a matriptase-dependent proteolytic pathway is a critical developmental target for both protease inhibitors. Here, we performed a genetic epistasis analysis to identify additional components of this pathway by generating mice with combined deficiency in either HAI-1 or HAI-2, along with genes encoding developmentally co-expressed candidate matriptase targets, and screening for the rescue of embryonic development. Hypomorphic mutations in Prss8, encoding the GPI-anchored serine protease, prostasin (CAP1, PRSS8), restored placentation and normal development of HAI-1-deficient embryos and prevented early embryonic lethality, mid-gestation lethality due to placental labyrinth failure, and neural tube defects in HAI-2-deficient embryos. Inactivation of genes encoding c-Met, protease-activated receptor-2 (PAR-2), or the epithelial sodium channel (ENaC) alpha subunit all failed to rescue embryonic lethality, suggesting that deregulated matriptase-prostasin activity causes developmental failure independent of aberrant c-Met and PAR-2 signaling or impaired epithelial sodium transport. Furthermore, phenotypic analysis of PAR-1 and matriptase double-deficient embryos suggests that the protease may not be critical for focal proteolytic activation of PAR-2 during neural tube closure. Paradoxically, although matriptase auto-activates and is a well-established upstream epidermal activator of prostasin, biochemical analysis of matriptase- and prostasin-deficient placental tissues revealed a requirement of prostasin for conversion of the matriptase zymogen to active matriptase, whereas prostasin zymogen activation was matriptase-independent.

Predator-prey chemical warfare determines the expression of biocontrol genes by rhizosphere-associated Pseudomonas fluorescens.

Soil bacteria are heavily consumed by protozoan predators, and many bacteria have evolved defense strategies such as the production of toxic exometabolites. However, the production of toxins is energetically costly and therefore is likely to be adjusted according to the predation risk to balance the costs and benefits of predator defense. We investigated the response of the biocontrol bacterium Pseudomonas fluorescens CHA0 to a common predator, the free-living amoeba Acanthamoeba castellanii. We monitored the effect of the exposure to predator cues or direct contact with the predators on the expression of the phlA, prnA, hcnA, and pltA genes, which are involved in the synthesis of the toxins, 2,4-diacetylphloroglucinol (DAPG), pyrrolnitrin, hydrogen cyanide, and pyoluteorin, respectively. Predator chemical cues led to 2.2-, 2.0-, and 1.2-fold increases in prnA, phlA, and hcnA expression, respectively, and to a 25% increase in bacterial toxicity. The upregulation of the tested genes was related to the antiprotozoan toxicity of the corresponding toxins. Pyrrolnitrin and DAPG had the highest toxicity, suggesting that bacteria secrete a predator-specific toxin cocktail. The response of the bacteria was elicited by supernatants of amoeba cultures, indicating that water-soluble chemical compounds were responsible for induction of the bacterial defense response. In contrast, direct contact of bacteria with living amoebae reduced the expression of the four bacterial toxin genes by up to 50%, suggesting that protozoa can repress bacterial toxicity. The results indicate that predator-prey interactions are a determinant of toxin production by rhizosphere P. fluorescens and may have an impact on its biocontrol potential.

Molecular karyotype analysis and mapping of housekeeping genes to chromosomes of selected species complexes of Leishmania

The molecular karyotypes for 20 reference strais of species complexes of Leishmania were determined by contour-clamped homogeneous eletric field (CHEF) electrosphoresis. Determination of number/position of chromosome-sized bands and chromosomal DNA locations of house-keeping genes were the two criteria used for differentiating and classifying the Leishmania species. We have established two gel running conditions of optimal separation of chromosomes, wich resolved DNA molecules as large as 2,500 kilobase pairs (kb). Chromosomes were polymorphic in number (22-30) and size (200-2,500 kb) of bands among members of five complexes of Leishmania. Although each stock had a distinct karyotype, in general the differences found between strains and/or species within each complex were not clear enough for parasite identification. However, each group showed a specific number of size-concordant DNA molecules, wich allowed distinction among the Leishmania complex parasites. Clear differences between the Old and New world groups of parasites or among some New World Leishmania species were also apparent in relation to the chromosome locations of beta-tubulin genes. Based on these results as well as data from other published studies the potencial of using DNA karyotype for identifying and classifying leishmanial field isolates is discussed.

Mutation analysis of the different tfd genes for degradation of chloroaromatic compounds in Ralstonia eutropha JMP134.

Ralstonia eutropha JMP134 possesses two sets of similar genes for degradation of chloroaromatic compounds, tfdCDEFB (in short: tfdI cluster) and tfdDII CII EII FII BII (tfdII cluster). The significance of two sets of tfd genes for the organism has long been elusive. Here, each of the tfd genes in the two clusters on the original plasmid pJP4 was replaced by double recombination with a gene fragment in which a kanamycin resistance gene was inserted into the respective tfd gene's reading frame. The insertion mutants were all tested for growth on 2,4-dichlorophenoxyacetic acid (2,4-D), 2-methyl-4-chlorophenoxyacetic acid (MCPA), and 3-chlorobenzoate (3-CBA). None of the tfdDII CII EII FII BII genes appeared to be essential for growth on 2,4-D or on 3-CBA. Mutations in tfdC, tfdD and tfdF also did not abolish but only retarded growth on 2,4-D, indicating that they were redundant to some extent as well. Of all tfd genes tested, only tfdE and tfdB were absolutely essential, and interruption of those two reading frames abolished growth on 2,4-D, 3-CBA ( tfdE only), and MCPA completely. Interestingly, strains with insertion mutations in the tfdI cluster and those in tfdDII, tfdCII, tfdEII and tfdBII were severely effected in their growth on MCPA, compared to the wild-type. This indicated that not only the tfdI cluster but also the tfdII cluster has an essential function for R. eutropha during growth on MCPA. In contrast, insertion mutation of tfdDII resulted in better growth of R. eutropha JMP134 on 3-CBA, which is most likely due to the prevention of toxic metabolite production in the absence of TfdDII activity.

Multiple expression control mechanisms of peroxisome proliferator-activated receptors and their target genes.

The peroxisome proliferator-activated receptors (PPAR) alpha, beta/delta and gamma belong to the nuclear hormone receptor superfamily. As ligand-activated receptors, they form a functional transcriptional unit upon heterodimerization with retinoid X receptors (RXRs). PPARs are activated by fatty acids and their derivatives, whereas RXR is activated by 9-cis retinoic acid. This heterodimer binds to peroxisome proliferator response elements (PPRE) residing in target genes and stimulates their expression. Recent reports now indicate that PPARs and RXRs can function independently, in the absence of a hetero-partner, to modulate gene expression. Of importance, these non-canonical mechanisms underscore the impact of both cofactors and DNA on gene expression. Furthermore, these different mechanisms reveal the increasing repertoire of PPAR 'target' genes that now encompasses non-PPREs containing genes. It is also becoming apparent that understanding the regulation of PPAR expression and activity, can itself have a significant influence on how the expression of subgroups of target genes is studied and integrated in current knowledge.