Comparative EST analysis provides insights into the basal aquatic fungus Blastocladiella emersonii

Abstract Background Blastocladiella emersonii is an aquatic fungus of the Chytridiomycete class, which is at the base of the fungal phylogenetic tree. In this sense, some ancestral characteristics of fungi and animals or fungi and plants could have been retained in this aquatic fungus and lost in members of late-diverging fungal species. To identify in B. emersonii sequences associated with these ancestral characteristics two approaches were followed: (1) a large-scale comparative analysis between putative unigene sequences (uniseqs) from B. emersonii and three databases constructed ad hoc with fungal proteins, animal proteins and plant unigenes deposited in Genbank, and (2) a pairwise comparison between B. emersonii full-length cDNA sequences and their putative orthologues in the ascomycete Neurospora crassa and the basidiomycete Ustilago maydis. Results Comparative analyses of B. emersonii uniseqs with fungi, animal and plant databases through the two approaches mentioned above produced 166 B. emersonii sequences, which were identified as putatively absent from other fungi or not previously described. Through these approaches we found: (1) possible orthologues of genes previously identified as specific to animals and/or plants, and (2) genes conserved in fungi, but with a large difference in divergence rate in B. emersonii. Among these sequences, we observed cDNAs encoding enzymes from coenzyme B12-dependent propionyl-CoA pathway, a metabolic route not previously described in fungi, and validated their expression in Northern blots. Conclusion Using two different approaches involving comparative sequence analyses, we could identify sequences from the early-diverging fungus B. emersonii previously considered specific to animals or plants, and highly divergent sequences from the same fungus relative to other fungi.

Mercury-induced autoimmunity : Genetics and immunoregulation

The existence of immune self-tolerance allows the immune system to mount responses against infectious agents, but not against self-molecular constitutes. Although self-tolerance is a robust phenomenon, in some individuals as well as in experimental models, the self-tolerance breaks down and as a result, a self-destructive autoimmune disease emerges. The underlying mechanisms for the development of autoimmune diseases are not known, but genetic, environmental and immunological factors are suggested to be involved. In this thesis, we used murine mercury-induced autoimmunity to test this suggestion. In susceptible mice mercuric chloride induces a systemic autoimmune disease characterized by increased serum levels of IgG1 and IgE, production of anti-nucleolar autoantibodies (ANolA) and formation of renal IgG deposits. In contrast, in resistant DBA/2 (H-2d) mice, none of these characteristics develop after exposure to mercury. By crossing and backcrossing mercury-resistant DBA/2 mice to mercury susceptible strains, we found that the resistance was inherited as a dominant trait in F1 hybrids and that one gene or a cluster of genes located in the H-2 loci determined the resistance to ANolA production, whereas resistance to the other characteristics was found to be controlled by two or three non-H-2 genes. We further put forward the “cryptic peptide hypothesis” to investigate whether mercury and another xenobiotic metal use similar pathway(s) to induce the H-2 linked production of ANolA. We found that while mercury stimulated ANolA synthesis in all H-2 susceptible (H-2s, H-2q and H-2f) mouse strains, silver induced only ANolA responses in H-2s and H-2q mice, but not in H-2f mice. Further studies showed that the resistance to silver-induced ANolA production in H-2f mice was inherited as a dominant trait. We next tested the proposition that mercury induces more adverse immunological effects in mouse strains, which are genetically prone to develop autoimmune diseases, using tight-skin 1 mice, an animal model for human Scleroderma. It was found that in this strain, mercury induced a strong immune activation with autoimmune characteristics, but did not accelerate the development of dermal fibrosis, a characteristic in Tsk/1 mice. Finally we addressed the Th1/Th2 cross-regulation paradigm by examining if a Th1-type of response could interact with a Th2-type of response if simultaneous induced in susceptible mice. Our findings demonstrated that mercury-induced autoimmunity (Th2-type) and collagen-induced arthritis (CIA) (Th1-type) can interact in a synergistic, antagonistic or additive fashion, depending on at which stage of CIA mercury is administered.

Identificazione di un profilo molecolare di rischio nei pazienti pediatrici affetti da Linfoma di Hodgkin

Obiettivi: nonostante i miglioramenti nel trattamento, circa il 30% dei pazienti pediatrici affetti da Linfoma di Hodgkin (LH) in stadio avanzato recidiva o muore per progressione di malattia e i correnti metodi predittivi biologico-clinici non consentono di individuare tali pazienti. L’obiettivo dello studio è stato quello di definire un profilo molecolare di rischio che correli con l’outcome in questi pazienti. Materiali e metodi: studio retrospettico condotto su pazienti pediatrici affetti da LH omogeneamente trattati dal 2004 in poi. Su tali pazienti è stato intrapreso uno studio di validazione di marcatori molecolari già identificati in studi esplorativi precedenti. 27 geni sono stati analizzati in RT PCR su campioni di tessuto istologico prelevato alla diagnosi fissato in formalina e processato in paraffina relativi a una coorte di 37 pazienti, 12 ad outcome sfavorevole e 25 ad outcome favorevole. Risultati: dall’analisi univariata è emerso che solo l’espressione di CASP3 e CYCS, appartenenti al pathway apoptotico, è in grado di influenzare l’EFS in modo significativo nella nostra coorte di pazienti. Lo studio delle possibili combinazioni di questi geni ha mostrato l’esistenza di 3 gruppi di rischio che correlano con l’EFS: alto rischio (down regolazione di entrambi i geni), rischio intermedio (down regolazione di uno solo dei 2 geni), basso rischio (up regolazione di entrambi i geni). Dall’analisi multivariata è emerso che CASP3 è l’unica variabile che mantiene la sua indipendenza nell’influenzare la prognosi con un rischio di eventi di oltre il doppio di chi ha un’espressione bassa di questo gene. Conclusioni: i risultati ottenuti sulla nostra coorte di pazienti pediatrici affetti da LH confermano l’impatto sulla prognosi di due marcatori molecolari CASP3 e CYCS coinvolti nel patwhay apoptotico. La valutazione del profilo di espressione di tali geni, potrebbe pertanto essere utilizzata in corso di stadiazione, come criterio di predittività.

Peripheral blood mononuclear cells represent a reservoir of bovine papillomavirus DNA in sarcoid-affected equines

Bovine papillomaviruses of types 1 and 2 (BPV-1 and -2) chiefly contribute to equine sarcoid pathogenesis. However, the mode of virus transmission and the presence of latent infections are largely unknown. This study established a PCR protocol allowing detection of 2 genes E5 and L1. Subsequent screening of peripheral blood mononuclear cell (PBMC) DNA derived from horses with and without BPV-1/2-induced skin lesions demonstrated the exclusive presence of E5, but not L1, in PBMCs of BPV-1/2-infected equines. To validate this result, a blind PCR was performed from enciphered PBMC DNA derived from 66 horses, revealing E5 in the PBMCs of three individuals with confirmed sarcoids, whereas the remaining 63 sarcoid-free animals were negative for this gene. L1 could not be detected in any PBMC DNA, suggesting either deletion or interruption of this gene in PBMCs of BPV-1/-2-infected equines. These results support the hypothesis that PBMCs may serve as host cells for BPV-1/-2 DNA and contribute to virus latency.

Haemonchus contortus acetylcholine receptors of the DEG-3 subfamily and their role in sensitivity to monepantel

Gastro-intestinal nematodes in ruminants, especially Haemonchus contortus, are a global threat to sheep and cattle farming. The emergence of drug resistance, and even multi-drug resistance to the currently available classes of broad spectrum anthelmintics, further stresses the need for new drugs active against gastro-intestinal nematodes. A novel chemical class of synthetic anthelmintics, the Amino-Acetonitrile Derivatives (AADs), was recently discovered and the drug candidate AAD-1566 (monepantel) was chosen for further development. Studies with Caenorhabditis elegans suggested that the AADs act via nicotinic acetylcholine receptors (nAChR) of the nematode-specific DEG-3 subfamily. Here we identify nAChR genes of the DEG-3 subfamily from H. contortus and investigate their role in AAD sensitivity. Using a novel in vitro selection procedure, mutant H. contortus populations of reduced sensitivity to AAD-1566 were obtained. Sequencing of full-length nAChR coding sequences from AAD-susceptible H. contortus and their AAD-1566-mutant progeny revealed 2 genes to be affected. In the gene monepantel-1 (Hco-mptl-1, formerly named Hc-acr-23H), a panel of mutations was observed exclusively in the AAD-mutant nematodes, including deletions at intron-exon boundaries that result in mis-spliced transcripts and premature stop codons. In the gene Hco-des-2H, the same 135 bp insertion in the 5' UTR created additional, out of frame start codons in 2 independent H. contortus AAD-mutants. Furthermore, the AAD mutants exhibited altered expression levels of the DEG-3 subfamily nAChR genes Hco-mptl-1, Hco-des-2H and Hco-deg-3H as quantified by real-time PCR. These results indicate that Hco-MPTL-1 and other nAChR subunits of the DEG-3 subfamily constitute a target for AAD action against H. contortus and that loss-of-function mutations in the corresponding genes may reduce the sensitivity to AADs.

Expresión de la resistencia en plantas de tomate a nematodos formadores de nódulos (Meloidogyne javanica)

La resistencia genética mediada por los genes R es uno de los sistemas de defensa de las plantas frente a patógenos y se activa una vez que los patógenos han superado la defensa basal que otorgan la cutícula y pared celular. Los mecanismos de resistencia genética se inician a su vez, por el reconocimiento de productos derivados de genes de avirulencia de los patógenos (avr) por parte de las proteínas R. Tanto la respuesta de defensa basal como la respuesta de defensa por genes R están influenciadas por patrones de regulación hormonal, que incluye a las principales hormonas vegetales ácido salicílico (SA), ácido jasmónico (JA) y etileno (ET). En tomate (Solanum lycopersicum) uno de los genes R es el gen MiG1, que confiere resistencia a nematodos formadores de nódulos (Meloidogyne javanica, M. incognita y M. arenaria). Uno de los eventos más importantes que caracterizan a la respuesta de resistencia es la reacción hipersensible (HR), que está mediada por la activación temprana de una serie de sistemas enzimáticos, entre los que destaca el de las peroxidasas (PRXs) Clase III. Su función es importante tanto para limitar el establecimiento y expansión del nematodo, al generar ambientes altamente tóxicos por su contribución en la producción masiva de ROS, como por su implicación en la síntesis y depósito de lignina generando barreras estructurales en el sitio de infección. Además de estos mecanismos de defensa asociados a la resistencia constitutiva, las plantas pueden desarrollar resistencia sistémica adquirida (SAR) que en la naturaleza ocurre, en ocasiones, en una fase posterior a que la planta haya sufrido el ataque de un patógeno. Así mismo hay diferentes productos de origen químico como el benzotiadiazol o BTH (ácido S-metil benzol-(1,2,3)-tiadiozole-7-carbónico ester) que pueden generar esta misma respuesta SAR. Como resultado, la planta adquiere resistencia sistémica frente a nuevos ataques de patógenos. En este contexto, el presente trabajo aborda en primer lugar el análisis comparativo, mediante microarrays de oligonucleótidos, de los transcriptomas de los sistemas radicales de plantas de tomate de 8 semanas de edad de dos variedades, una portadora del gen de resistencia MiG1 (Motelle) y otra carente del mismo y, por tanto, susceptible (Moneymaker), antes y después de la infección por M. javanica. Previo a la infección se observó que la expresión de un gran número de transcritos era más acusada en la variedad resistente que en la susceptible, entre ellos el propio gen MiG1 o los genes PrG1 (o P4), LEJA1 y ER24, lo que indica que, en ausencia de infección, las rutas hormonales del SA, JA y ET están más activas en la raíz de la variedad resistente. Por el contrario, un número mucho menor de transcritos presentaban su expresión más reducida en Motelle que en Moneymaker, destacando un gen de señalización para sintetizar la hormona giberelina (GA). La infección por M. javanica causa importantes cambios transcripcionales en todo el sistema radical que modifican sustancialmente las diferencias basales entre plantas Motelle y Moneymaker, incluida la sobreexpresión en la variedad resistente de los transcritos de MiG1, que se reduce parcialmente, mientras que las rutas hormonales del SA y el JA continuan más activas que en la susceptible (evidente por los genes PrG1 y LEJA1). Además, los cambios asociados a la infección del nematodo se evidencian por las grandes diferencias entre los dos tiempos post-infección considerados, de tal forma que en la fase temprana (2 dpi) de la interacción compatible predomina la sobreexpresión de genes de pared celular y en la tardía (12 dpi) los relacionados con el ARN. En el análisis de la interacción incompatible, aunque también hay muchas diferencias entre ambas fases, hay que destacar la expresión diferencial común de los genes loxA y mcpi (sobrexpresados) y del gen loxD (reprimido) por su implicación en defensa en otras interacciones planta-patógeno. Cabe destacar que entre las interacciones compatible e incompatible hubo muy pocos genes en común. En la etapa temprana de la interacción compatible destacó la activación de genes de pared celular y la represión de la señalización; en cambio, en la interacción incompatible hubo proteínas principalmente implicadas en defensa. A los 12 días, en la interacción compatible los genes relacionados con el ARN y la pared celular se sobreexpresaban principalmente, y se reprimían los de proteínas y transporte, mientras que en la incompatible se sobreexpresaron los relacionados con el estrés, el metabolismo secundario y el de hormonas y se reprimieron los de ARN, señalización, metabolismo de hormonas y proteínas. Por otra parte, la técnica de silenciamiento génico VIGS reveló que el gen TGA 1a está implicado en la resistencia mediada por el gen MiG1a M. javanica. Así mismo se evaluó el transcriptoma de todo el sistema radical de la variedad susceptible tras la aplicación del inductor BTH, y se comparó con el transcriptoma de la resistente. Los resultados obtenidos revelan que el tratamiento con BTH en hojas de Moneymaker ejerce notables cambios transcripcionales en la raíz; entre otros, la activación de factores de transcripción Myb (THM16 y THM 27) y del gen ACC oxidasa. Las respuestas inducidas por el BTH parecen ser de corta duración ya que no hubo transcritos diferenciales comunes a las dos fases temporales de la infección comparadas (2 y 12 dpi). El transcriptoma de Moneymaker tratada con BTH resultó ser muy diferente al de la variedad resistente Motelle, ambas sin infectar, destacando la mayor expresión en el primero del gen LeEXP2, una expansina relacionada con defensa frente a nematodos. Las respuestas inducidas por los nematodos en Moneymaker-BTH también fueron muy distintas a las observadas previamente en la interacción incompatible mediada por MiG1, pues sólo se detectaron 2 genes sobreexpresados comunes a ambos eventos. Finalmente, se abordó el estudio de la expresión diferencial de genes que codifican PRXs y su relación con la resistencia en la interacción tomate/M. javanica. Para ello, se realizó en primer lugar el estudio del análisis del transcriptoma de tomate de la interacción compatible, obtenido en un estudio previo a partir de tejido radical infectado en distintos tiempos de infección. Se han identificado 16 unigenes de PRXs con expresión diferencial de los cuales 15 se relacionan por primera vez con la respuesta a la infección de nematodos. La mayoría de los genes de PRXs identificados, 11, aparecen fuertemente reprimidos en el sitio de alimentación, en las células gigantes (CG). Dada la implicación directa de las PRXs en la activación del mecanismo de producción de ROS, la supresión de la expresión génica local de genes de PRXs en el sitio de establecimiento y alimentación pone de manifiesto la capacidad del nematodo para modular y superar la respuesta de defensa de la planta de tomate en la interacción compatible. Posteriormente, de estos genes identificados se han elegido 4: SGN-U143455, SGN-U143841 y SGN-U144042 reprimidos en el sitio de infección y SGN-U144671 inducido, cuyos cambios de expresión se han determinado mediante análisis por qRT-PCR y de hibridación in situ en dos tiempos de infección (2 dpi y 4 dpi) y en distintos tejidos radicales de tomate resistente y susceptible. Los patrones de expresión obtenidos demuestran que en la interacción incompatible la transcripción global de los 4 genes estudiados se dispara en la etapa más temprana en el sitio de infección, detectándose la localización in situ de transcritos en el citoplasma de las células corticales de la zona meristemática afectadas por el nematodo. A 4 dpi se observó que los niveles de expresión en el sitio de infección cambian de tendencia y los genes SGN-U144671 y SGN-U144042 se reprimen significativamente. Los diferentes perfiles de expresión de los genes PRXs en los dos tiempos de infección sugieren que su inducción en las primeras 48 horas es crucial para la respuesta de defensa relacionada con la resistencia frente a la invasión del nematodo. Por último, al analizar el tejido radical sistémico, se detectó una inducción significativa de la expresión en la fase más tardía de la infección del gen SGN-U144042 en el genotipo susceptible y del SGN-U143841 en ambos genotipos. En este estudio se describe por primera vez la inducción de la expresión sistémica de genes de PRXs en tomate durante la interacción compatible e incompatible con M. javanica lo que sugiere su posible implicación funcional en la respuesta de defensa SAR activada por la infección previa del nematodo. ABSTRACT Plants defend themselves from pathogens by constitutive and/or induced defenses. A common type of induced defense involves plant resistance genes (R), which are normally activated in response to attack by specific pathogen species. Typically, a specific plant R protein recognizes a specific pathogen avirulence (avr) compound. This initiates a complex biochemical cascade inside the plant that results in synthesis of antipathogen compounds. This response can involve chemical signaling, transcription, translation, enzymes and metabolism, and numerous plant hormones such as salicylic acid (SA), jasmonates (JA) and ethylene (ET). Induced plant defense can also activate Class III peroxidases (PRXs), which produce reactive oxygen species (ROS), regulate extracellular H2O2, and play additional roles in plant defense. R-gene activation and the resulting induced defense often remain localized in the specific tissues invaded by the plant pathogen. In other cases, the plant responds by signaling the entire plant to produce defense compounds (systemic induction). Plant defense can also be induced by the exogenous application of natural or synthetic elicitors, such as benzol-(1,2,3)-thiadiazole-7-carbothionic acid. There is much current scientific interest in R-genes and elicitors, because they might be manipulated to increase agricultural yield. Scientists also are interested in systemic induction, because this allows the entire plant to be defended. In this context, one of the aims of this investigation was the transcriptoma analysis of the root systems of two varieties of tomato, the resistant variety (Motelle) that carrier MiG1 and the susceptible (Moneymaker) without MiG1, before and after infection with M. javanica. The overexpression was more pronounced in the transcriptoma of the resistant variety compared with susceptible, before infection, including the MiG1 gene, PrG1 (or P4) genes, LEJA1 and ER24, indicating that hormone SA, JA and ET are active in the resistant variety. Moreover, GA hormone presents an opposite behavior. M. javanica infection causes significant transcriptional changes in both compatible (Moneymaker-M. javanica) and incompatible (Motelle-M. javanica) interaction. In the incompatible transcriptome root system, was notably reduced the expression of the MiG1 gene, and a continuity in the expression of the hormonal pathways of SA and JA. In other hand, transcriptional profile changes during compatible interaction were associated with nematode infection. The large differences between the two times point infection considered (2 dpi and 12 dpi) indicates an overexpression of cell wall related genes in the first phase, and conversely an overexpression of RNA genes in the late phase. Transcriptoma analysis of incompatible interaction, although there were differences between the two phases, should be highlighted the common differential gene expression: loxA and mcpi (overexpressed) and loxD gene (suppressed), as they are involved in defenses in other plant-pathogen interactions. The VIGS tool has provided evidence that TGA 1a is involved in MiG1 mediated resistance to M. javanica. Likewise, the systemic application of BTH was assessed and compared with susceptible and resistant variety. Root system transcriptoma of BTH treatment on leaves showed the activation of Myb transcription factors (THM16 and THM27), the ACC oxidase gene. and the LeEXP2 gene, encoding for an expansin enzyme, related with defense against nematodes. The activation appears to be reduced by subsequent infection and establishment of nematodes. To assist in elucidate the role of tomato PRXs in plant defence against M. javanica, the transcriptome obtained previously from isolated giant cells (GC) and galls at 3 and 7 dpi from the compatible interaction was analysed. A total of 18 different probes corresponding to 16 PRX encoding genes were differentially expressed in infection site compared to the control uninfected root tissues. Most part of them (11) was down-regulated. These results yielded a first insight on 15 of the PRX genes responding to tomato–Meloidogyne interaction and confirm that repression of PRX genes might be crucial for feeding site formation at the initial stages of infection. To study the involvement of PRX genes in resistance response, four genes have been selected: SGN-U143455, SGN-U143841 and SGN-U144042 consistently down-regulated and SGN-U144671 consistently up-regulated at infection site in compatible interaction. The expression changes were determined by qRT-PCR and in situ location at 2 dpi and 4 dpi, and in different root tissues of resistant and susceptible plants. Early upon infection (2 dpi), the transcripts levels of the four genes were strongly increased in infected tissue of resistant genotype. In situ hybridization showed transcript accumulation of them in meristem cortical cells, where the nematode made injury. The results obtained provide strong evidence that early induction of PRX genes is important for defence response of the resistance against nematode invasion. Moreover, the induction patterns of SGN-U144042 gene observed at 4 dpi in distal noninfected root tissue into the susceptible genotype and of SGN-U143841 gene in both genotypes suggest a potential involvement of PRX in the systemic defence response.

Potency of Michael reaction acceptors as inducers of enzymes that protect against carcinogenesis depends on their reactivity with sulfhydryl groups

Induction of phase 2 enzymes and elevations of glutathione are major and sufficient strategies for protecting mammals and their cells against the toxic and carcinogenic effects of electrophiles and reactive forms of oxygen. Inducers belong to nine chemical classes and have few common properties except for their ability to modify sulfhydryl groups by oxidation, reduction, or alkylation. Much evidence suggests that the cellular “sensor” molecule that recognizes the inducers and signals the enhanced transcription of phase 2 genes does so by virtue of unique and highly reactive sulfhydryl functions that recognize and covalently react with the inducers. Benzylidene-alkanones and -cycloalkanones are Michael reaction acceptors whose inducer potency is profoundly increased by the presence of ortho- (but not other) hydroxyl substituent(s) on the aromatic ring(s). This enhancement correlates with more rapid reactivity of the ortho-hydroxylated derivatives with model sulfhydryl compounds. Proton NMR spectroscopy provides no evidence for increased electrophilicity of the β-vinyl carbons (the presumed site of nucleophilic attack) on the hydroxylated inducers. Surprisingly, these ortho-hydroxyl groups display a propensity for extensive intermolecular hydrogen bond formation, which may raise the reactivity and facilitate addition of mercaptans, thereby raising inducer potencies.

Point mutations in a nucleoside transporter gene from Leishmania donovani confer drug resistance and alter substrate selectivity

Leishmania parasites lack a purine biosynthetic pathway and depend on surface nucleoside and nucleobase transporters to provide them with host purines. Leishmania donovani possess two closely related genes that encode high affinity adenosine-pyrimidine nucleoside transporters LdNT1.1 and LdNT1.2 and that transport the toxic adenosine analog tubercidin in addition to the natural substrates. In this study, we have characterized a drug-resistant clonal mutant of L. donovani (TUBA5) that is deficient in LdNT1 transport and consequently resistant to tubercidin. In TUBA5 cells, the LdNT1.2 genes had the same sequence as wild-type cells. However, because LdNT1.2 mRNA is not detectable in either wild-type or TUBA5 promastigotes, LdNT1.2 does not contribute to nucleoside transport in this stage of the life cycle. In contrast, the TUBA5 cells were compound heterozygotes at the LdNT1.1 locus containing two mutant alleles that encompassed distinct point mutations, each of which impaired transport function. One of the mutant LdNT1.1 alleles encoded a G183D substitution in predicted TM 5, and the other allele contained a C337Y change in predicted TM 7. Whereas G183D and C337Y mutants had only slightly elevated adenosine Km values, the severe impairment in transport resulted from drastically (≈20-fold) reduced Vmax values. Because these transporters were correctly targeted to the plasma membrane, the reduction in Vmax apparently resulted from a defect in translocation. Strikingly, G183 was essential for pyrimidine nucleoside but not adenosine transport. A mutant transporter with a G183A substitution had an altered substrate specificity, exhibiting robust adenosine transport but undetectable uridine uptake. These results suggest that TM 5 is likely to form part of the nucleoside translocation pathway in LdNT1.1

Adenovirus-mediated interleukin-12 gene therapy for metastatic colon carcinoma.

Recombinant adenoviral mediated delivery of suicide and cytokine genes has been investigated as a treatment for hepatic metastases of colon carcinoma in mice. Liver tumors were established by intrahepatic implantation of a poorly immunogenic colon carcinoma cell line (MCA-26), which is syngeneic in BALB/c mice. Intratumoral transfer of the herpes simplex virus type 1 thymidine kinase (HSV-tk) and the murine interleukin (mIL)-2 genes resulted in substantial hepatic tumor regression, induced an effective systemic antitumoral immunity in the host and prolonged the median survival time of the treated animals from 22 to 35 days. The antitumoral immunity declined gradually, which led to tumor recurrence over time. A recombinant adenovirus expressing the mIL-12 gene was constructed and tested in the MCA-26 tumor model. Intratumoral administration of this cytokine vector alone increased significantly survival time of the animals with 25% of the treated animals still living over 70 days. These data indicate that local expression of IL-12 may also be an attractive treatment strategy for metastatic colon carcinoma.

The conserved role of Krox-20 in directing Hox gene expression during vertebrate hindbrain segmentation.

Transient segmentation in the hindbrain is a fundamental morphogenetic phenomenon in the vertebrate embryo, and the restricted expression of subsets of Hox genes in the developing rhombomeric units and their derivatives is linked with regional specification. Here we show that patterning of the vertebrate hindbrain involves the direct upregulation of the chicken and pufferfish group 2 paralogous genes, Hoxb-2 and Hoxa-2, in rhombomeres 3 and 5 (r3 and r5) by the zinc finger gene Krox-20. We identified evolutionarily conserved r3/r5 enhancers that contain high affinity Krox-20. binding sites capable of mediating transactivation by Krox-20. In addition to conservation of binding sites critical for Krox-20 activity in the chicken Hoxa-2 and pufferfish Hoxb-2 genes, the r3/r5 enhancers are also characterized by the presence of a number of identical motifs likely to be involved in cooperative interactions with Krox-20 during the process of hindbrain patterning in vertebrates.

Antitumor promotion by phenolic antioxidants: inhibition of AP-1 activity through induction of Fra expression.

Induction of phase 2 detoxification enzymes by phenolic antioxidants can account for prevention of tumor initiation but cannot explain why these compounds inhibit tumor promotion. Phase 2 genes are induced through an antioxidant response element (ARE). Although the ARE resembles an AP-1 binding site, we show that the major ARE binding and activating protein is not AP-1. Interestingly, AP-1 DNA binding activity was induced by the phenolic antioxidant tert-butylhydroquinone (BHQ), but the induction of AP-1 transcriptional activity by the tumor promoter 12-O-tetradecanoylphorbol 13-acetate (TPA) was inhibited by this compound. BHQ induced expression of c-jun, junB, fra-1, and fra-2, which encode AP-1 components, but was a poor inducer of c-fos and had no effect on fosB. Like c-Fos and FosB, the Fra proteins heterodimerize with Jun proteins to form stable AP-1 complexes. However, Fra-containing AP-1 complexes have low transactivation potential. Furthermore, Fra-1 repressed AP-1 activity induced by either TPA or expression of c-Jun and c-Fos. We therefore conclude that inhibitory AP-1 complexes composed of Jun-Fra heterodimers, induced by BHQ, antagonize the transcriptional effects of the tumor promoter TPA, which are mediated by Jun-Fos heterodimers. Since AP-1 is an important mediator of tumor promoter action, these findings may explain the anti-tumor-promoting activity of phenolic antioxidants.

B cell chronic lymphocytic leukaemia cells have reduced capacity to upregulate expression of MHC class I in response to interferon-gamma

Aims: An important consideration in the design of a tumour vaccine is the ability of tumour-specific cytotoxic T lymphocytes (CTL) to recognise unmanipulated tumour cells in vivo. To determine whether B-CLL might use an escape strategy, the current studies compared B-CLL and normal B cell MHC class I expression. Methods: Flow cytometry, TAP allele PCR and MHC class I PCR were used. Results: While baseline expression of MHC class I did not differ, upregulation of MHC class I expression by B-CLL cells in response to IFN-gamma was reduced. No deletions or mutations of TAP 1 or 2 genes were detected. B-CLL cells upregulated TAP protein expression in response to IFN-gamma. Responsiveness of B-CLL MHC class I mRNA to IFN-gamma was not impaired. Conclusions: The data suggest that MHC class I molecules might be less stable at the cell surface in B-CLL than normal B cells, as a result of the described release of beta(2)m and beta(2)m-free class I heavy chains from the membrane. This relative MHC class I expression defect of B-CLL cells may reduce their susceptibility to CTL lysis in response to immunotherapeutic approaches.

Hybrid 'Sinta' papaya exhibits unique ACC synthase 1 cDNA isoforms

Five ripening-related ACC synthase cDNA isoforms were cloned from 80% ripe papaya cv. 'Sinta' by reverse transcription-PCR using gene-specific primers. Clone 2 had the longest transcript and contained all common exons and three alternative exons. Clones 3 and 4 contained common exons and one alternative exon each, while clone 1, the most common transcript, contained only the common exons. Clone 5 could be due to cloning artifacts and might not be a unique cDNA fragment. Thus, there are only four isoforms of ACC synthase mRNA. Southern blot analysis indicates that all five clones came from only one gene existing as a single copy in the 'Sinta' papaya genome. Multiple sequence alignment indicates that the four isoforms arise from a single gene, possibly through alternative splicing mechanisms. All the putative alternative exons were present at the 5'-end of the gene comprising the N-terminal region of the protein. 'Sinta' ACC synthase cDNAs were of the capacs 1 type and are most closely related to a 1.4 kb capacs 1-type DNA (AJ277160) from Eksotika papaya. No capacs 2-type cDNAs were cloned from 'Sinta' by RT-PCR. This is the first report of possible alternative splicing mechanism in ripening-related ACC synthase genes in hybrid papaya, possibly to modulate or fine-tune gene expression relevant to fruit ripening.

What risk factors are associated with Alzheimer's disease?

A large number of risk factors have been associated with Alzheimer’s disease (AD). This article discusses the validity of the major risk factors that have been identified including age, genetics, exposure to aluminium, head injury, malnutrition and diet, mitochondrial dysfunction, vascular disease, immune system dysfunction, and infection. Rare forms of early-onset familial AD (FAD) are strongly linked to the presence of specific gene mutations, viz. mutations in amyloid precursor protein (APP) and presenilin (PSEN1/2) genes. By contrast, late-onset sporadic AD (SAD) is a multifactorial disorder in which age-related changes, genetic risk factors, such as allelic variation in apolipoprotein E (Apo E) gene, vascular disease, head injury and risk factors associated with diet, the immune system, mitochondrial function, and infection may all be involved. Life-style changes that may reduce the effect of these risk factors and therefore, the risk of AD are discussed.

Risk factors for Alzheimer's disease

A large number of possible risk factors have been associated with Alzheimer'sdisease (AD).This chapter discusses the validity of the major risk factors that have been identifiedincluding age, genetics, exposure to aluminum, head injury, malnutrition and diet,mitochondrial dysfunction, vascular disease, immune system dysfunction, and infectionand proposes a hypothesis to explain how these various risk factors may cause ADpathology.Rare forms of early-onset familial AD (FAD) are strongly linked to the presence ofspecific gene mutations, viz. mutations in amyloid precursor protein (APP) andpresenilin (PSEN1/2) genes. By contrast, late-onset sporadic AD (SAD) is amultifactorial disorder in which age-related changes, genetic risk factors, such as allelicvariation in apolipoprotein E (Apo E) gene, vascular disease, head injury and risk factorsassociated with diet, immune system, mitochondrial function, and infection may all beinvolved.These risk factors interact to increase the rate of normal aging (=allostatic load')which over a lifetime results in degeneration of neurons and blood vessels and as aconsequence, the formation of abnormally aggregated =reactive' proteins such as ß-amyloid (Aß) and tau leading to the development of senile plaques (SP) andneurofibrillary tangles (NFT) respectively. Life-style changes that may reduce theallostatic load and therefore, the risk of dementia are discussed.