Autoimmunity in centenarians. A paradox.

Autoimmune diseases (ADs) are one of the groups of chronic illnesses that impose a significant burden of disease and health costs worldwide. Age is a crucial risk factor for the onset of ADs. Theoretically, it is inferred that with organic and immune system aging, the loss of immune tolerance and specificity of immune activity becomes more intense, the probability of autoimmunity is increasing. However, there is a group of individuals whose prevalence of ADs is very low or non-existent, despite the biological aging. This paradox in autoimmunity raises questions. Centenarians, individuals who are over 100 years old, are possibly the most successful model of biological aging in humans. Most of these individuals exhibit a favorable health phenotype. To date, primary data evidence and potential hypotheses explaining this phenomenon are lacking globally, even though this paradox could provide valuable, original, and relevant information regarding the understanding of risk or protective factors, biological drivers, and biomarkers related to autoimmunity. Herein we discuss some hypothesis that may explain the absence of ADs in centenarians, including inflammaging, immunosenescence and immune resilience, immune system hyperstimulation, proteodynamics, and genetics.

Gene expression profiles of ERG11, MDR1 and AFR1 in Cryptococcus neoformans var.grubbi from HIV patients / Perfiles de expresión de los genes ERG11, MDR1 y AFR1 en Cryptococcus neoformans var. grubii aislados de pacientes con VIH

Introduction: Fluconazole is the most used antifungal drug for prevention and treatment of Cryptococcus spp. infections, the etiological agent of cryptococcosis. Resistance to fluconazole among Cryptococcus neoformans isolates can lead to treatment failure and generate relapses. Objective: To evaluate the expression profiles of the AFR1, MDR1 and ERG11 genes in C. neoformans var. grubii clinical isolates during the in vitro response to fluconazole induction. Materials and methods: Fourteen C. neoformans var. grubii isolates recovered from HIV patients were studied, in which 6 showed sensitivities to fluconazole and 8 decreased sensitivity. The expression levels of ERG11, AFR1 and MDR1 genes were determined by real-time PCR from extracted mRNA. Results: AFR1 and MDR1 genes from C. neoformans var. grubii were overexpressed in fluconazole resistant isolates, whereas ERG11 maintains homogeneous expression in all the evaluated resistance phenotypes of C. neoformans var. grubii isolates. Conclusions: The overexpression of AFR1 and MDR1 genes, which codify for efflux pumps, contributes to fluconazole resistance in the studied isolates. However, the resistance patterns in this fungus and the relapse cases in HIV patients cannot be attributed solely to the exposure to the drug. Heteroresistance and the emerging resistance (resistance through other ERG genes), might be other mechanisms involved in this phenomenon, which must be studied in these isolations.

Introducción. El fluconazol es el antifúngico más utilizado para la prevención y el tratamiento de infecciones causadas por el género Cryptococcus, agente etiológico de la criptococosis. La resistencia al fluconazol en los aislamientos de Cryptoccocus neoformans puede hacer fracasar el tratamiento y generar recaídas de la infección. Objetivo. Evaluar los perfiles de expresión de los genes AFR1, MDR1 y ERG11 en aislamientos clínicos de C. neoformans var. grubii, durante la respuesta in vitro a la inducción con fluconazol. Materiales y métodos. Se estudiaron 14 aislamientos de C. neoformans var. grubii provenientes de pacientes con HIV, de los cuales 6 eran sensibles al fluconazol y 8 presentaban sensibilidad disminuida. Los niveles de expresión de los genes ERG11, AFR1 y MDR1 se determinaron mediante PCR en tiempo real. Resultados. Los aislamientos resistentes al fluconazol mostraron sobreexpresión de los genes AFR1 y MDR1, mientras que la expresión de los fenotipos de resistencia evaluados se mantuvo homogénea en ERG11, en todos los aislamientos de C. neoformans var. grubii. Conclusiones. La sobreexpresión de los genes AFR1 y MDR1 que codifican las bombas de eflujo, contribuye a la resistencia al fluconazol en los aislamientos estudiados. Sin embargo, los patrones de resistencia que se registran en este hongo, sumado a los casos de recaídas en pacientes con HIV, no pueden atribuirse únicamente a los casos de resistencia por exposición al fármaco. Otros mecanismos podrían también estar involucrados en este fenómeno, como la resistencia emergente (resistencia mediante otros genes ERG) y la heterorresistencia, los cuales deben ser estudiados en estos aislamientos.

Perfiles de expresión de los genes ERG11, MDR1 y AFR1 en Cryptococcus neoformans var. grubii aislados de pacientes con HIV / Gene expression profiles of ERG11, MDR1 y AFR1 in Cryptococcus neoformans var. grubbi isolated from HIV patients

Introducción. El fluconazol es el antifúngico más utilizado para la prevención y el tratamiento de infecciones causadas por el género Cryptococcus, agente etiológico de la criptococosis. La resistencia al fluconazol en los aislamientos de Cryptoccocus neoformans puede hacer fracasar el tratamiento y generar recaídas de la infección. Objetivo. Evaluar los perfiles de expresión de los genes AFR1, MDR1 y ERG11 en aislamientos clínicos de C. neoformans var. grubii, durante la respuesta in vitro a la inducción con fluconazol. Materiales y métodos. Se estudiaron 14 aislamientos de C. neoformans var. grubii provenientes de pacientes con HIV, de los cuales 6 eran sensibles al fluconaol y 8 presentaban sensibilidad disminuida. Los niveles de expresión de los genes ERG11, AFR1 y MDR1 se determinaron mediante PCR en tiempo real. Resultados. Los aislamientos resistentes al fluconazol mostraron sobreexpresión de los genes AFR1 y MDR1, mientras que la expresión de los fenotipos de resistencia evaluados se mantuvo homogénea en ERG11, en todos los aislamientos de C. neoformans var. grubii. Conclusiones. La sobreexpresión de los genes AFR1 y MDR1 que codifican las bombas de eflujo, contribuye a la resistencia al fluconazol en los aislamientos estudiados. Sin embargo, los patrones de resistencia que se registran en este hongo, sumado a los casos de recaídas en pacientes con HIV, no pueden atribuirse únicamente a los casos de resistencia por exposición al fármaco. Otros mecanismos podrían también estar involucrados en este fenómeno, como la resistencia emergente (resistencia mediante otros genes ERG) y la heterorresistencia, los cuales deben ser estudiados en estos aislamientos.

Introduction: Fluconazole is the most used antifungal drug for prevention and treatment of Cryptococcus spp. infections, the etiological agent of cryptococcosis. Resistance to fluconazole among Cryptococcus neoformans isolates can lead to treatment failure and generate relapses. Objective: To evaluate the expression profles of the AFR1, MDR1 and ERG11 genes in C. neoformans var. grubii clinical isolates during the in vitro response to fluconazole induction. Materials and methods: Fourteen C. neoformans var. grubii isolates recovered from HIV patients were studied, in which 6 showed sensitivities to fluconazole and 8 decreased sensitivity. The expression levels of ERG11, AFR1 and MDR1 genes were determined by real-time PCR from extracted mRNA. Results: AFR1 and MDR1 genes from C. neoformans var. grubii were overexpressed in fluconazole resistant isolates, whereas ERG11 maintains homogeneous expression in all the evaluated resistance phenotypes of C. neoformans var. grubii isolates. Conclusions: The overexpression of AFR1 and MDR1 genes, which codify for efflux pumps, contributes to fluconazole resistance in the studied isolates. However, the resistance patterns in this fungus and the relapse cases in HIV patients cannot be attributed solely to the exposure to the drug. Heteroresistance and the emerging resistance (resistance through other ERG genes), might be other mechanisms involved in this phenomenon, which must be studied in these isolations.

New Histoplasma Diagnostic Assays Designed via Whole Genome Comparisons.

Histoplasmosis is a systemic fungal disease caused by the pathogen Histoplasma spp. that results in significant morbidity and mortality in persons with HIV/AIDS and can also affect immunocompetent individuals. Although some PCR and antigen-detection assays have been developed, conventional diagnosis has largely relied on culture, which can take weeks. Our aim was to provide a proof of principle for rationally designing and standardizing PCR assays based on Histoplasma-specific genomic sequences. Via automated comparisons of aligned genome contigs/scaffolds and gene (sub)sequences, we identified protein-coding genes that are present in existing sequences of Histoplasma strains but not in other genera. Two of the genes, PPK and CFP4, were used for designing primer sets for conventional and real-time PCR assays. Both resulted in a 100% analytical specificity in vitro and detected 62/62 H. capsulatum isolates using purified DNA. We also obtained positive detections of 2/2 confirmed H. capsulatum clinical FFPE (formalin-fixed paraffin-embedded) samples using both primer sets. Positive control plasmid 10-fold serial dilutions confirmed the analytical sensitivity of the assays. The findings suggest that these novel primer sets should allow for detection sensitivity and reduce false positive results/cross-reactions. New assays for detecting pathogenic fungi, constructed along these lines, could be simple and affordable to implement.

Population Pharmacogenomics for Precision Public Health in Colombia.

While genomic approaches to precision medicine hold great promise, they remain prohibitively expensive for developing countries. The precision public health paradigm, whereby healthcare decisions are made at the level of populations as opposed to individuals, provides one way for the genomics revolution to directly impact health outcomes in the developing world. Genomic approaches to precision public health require a deep understanding of local population genomics, which is still missing for many developing countries. We are investigating the population genomics of genetic variants that mediate drug response in an effort to inform healthcare decisions in Colombia. Our work focuses on two neighboring populations with distinct ancestry profiles: Antioquia and Chocó. Antioquia has primarily European genetic ancestry followed by Native American and African components, whereas Chocó shows mainly African ancestry with lower levels of Native American and European admixture. We performed a survey of the global distribution of pharmacogenomic variants followed by a more focused study of pharmacogenomic allele frequency differences between the two Colombian populations. Worldwide, we found pharmacogenomic variants to have both unusually high minor allele frequencies and high levels of population differentiation. A number of these pharmacogenomic variants also show anomalous effect allele frequencies within and between the two Colombian populations, and these differences were found to be associated with their distinct genetic ancestry profiles. For example, the C allele of the single nucleotide polymorphism (SNP) rs4149056 [Solute Carrier Organic Anion Transporter Family Member 1B1 (SLCO1B1)∗5], which is associated with an increased risk of toxicity to a commonly prescribed statin, is found at relatively high frequency in Antioquia and is associated with European ancestry. In addition to pharmacogenomic alleles related to increased toxicity risk, we also have evidence that alleles related to dosage and metabolism have large frequency differences between the two populations, which are associated with their specific ancestries. Using these findings, we have developed and validated an inexpensive allele-specific PCR assay to test for the presence of such population-enriched pharmacogenomic SNPs in Colombia. These results serve as an example of how population-centered approaches to pharmacogenomics can help to realize the promise of precision medicine in resource-limited settings.

Utilidad del gen SLCO1B1 como marcador de interés en la farmacogenómica de las estatinas / SLCO1B1 gene utility as a marker of interest in the pharmacogenomics of statins

Resumen Las enfermedades cardiovasculares son la principal causa de muerte en el mundo. Fármacos hipolipemiantes como las estatinas son la primera alternativa en la prevención primaria de eventos cardiovasculares, ictus cerebrales y procedimientos de revascularización. Estos fármacos son inhibidores de la enzima HMG-CoA reductasa, la cual regula la velocidad de la síntesis del colesterol y además aumenta la captación hepática del mismo por la vía del receptor de las LDL. El polipéptido transportador de aniones orgánicos 1B1 (OATP1B1) codificado por el gen SLCO1B1 es uno de los transportadores de captación y eflujo hepático de las estatinas. Por medio de estudios de asociación de genomas completos se han reportado diferentes SNPs dentro del gen SLCO1B1 con capacidad de reducir la captación de estatinas mediada por OATP1B1, por lo que las variaciones en la secuencia de este gen influyen en la farmacocinética y farmacodinámica de estos medicamentos, llegando a causar una condición conocida como miopatía inducida por estatinas. En la actualidad, genes que afectan las terapias cardiovasculares, así como los avances actuales en el campo de las pruebas diagnósticas basadas en la secuenciación de los mismos, ofrecen la posibilidad de revolucionar el diagnóstico y el tratamiento con el fin de validar el riesgo de predicción, pronóstico, prevención y manejo de pacientes con riesgo de enfermedades cardiovasculares, lo cual conducirá al desarrollo de nuevas formas de tratamientos médicos.

Abstract Cardiovascular diseases are the main cause of death in the world. Lipid-lowering drugs like statins are the first alternative in the primary prevention of cardiovascular events, strokes, and revascularisation procedures. These drugs are HMG-CoA reductase inhibitors, which regulate the rate of cholesterol synthesis, as well as increase its liver uptake via the LDL receptor pathway. The organic anion transporter polypeptide 1B1 (OATP1B1) coded by the solute carrier organic anion transporter 1B1 (SLCO1B1) gene is one of the hepatic influx and efflux transporters of statins. In genome-wide association studies (GWAS) different single nucleotide polymorphisms (SNPs) have been reported within the SLCO1B1 gene that are able to reduce the statin uptake mediated by OATP1B1. This suggests that the variations in the sequencing of this gene have an influence on the pharmacokinetics and pharmacodynamics of these drugs, leading to a condition known as statin-induced myopathy. Genes that affect cardiovascular treatments, as well as the current advances in diagnostic tests based on their sequencing, now offer the possibility of revolutionising their diagnosis and treatment. They could be used with the aim of validating risk prediction, prognosis, prevention, and management of patients with a risk of cardiovascular diseases, and will lead to the development of new forms of medical treatments.

Aplicación farmacogenómica de los genes CYP2C19, CYP2C9 y VKORC1 implicados en el metabolismo de los fármacos clopidogrel y warfarina / Pharmacogenomic application of the CYP2C19, CYP2C9 and VKORC1 genes implicated in the metabolism of clopidogrel and warfarin

Resumen El estudio de las variaciones de las secuencias de ADN y ARN en relación con la respuesta a diferentes fármacos, se ha convertido en un área de estudio particularmente prometedora para la aplicación en genómica clínica y estudios de genomas personalizados. Medicamentos de uso diario en el tratamiento de enfermedades cardiovasculares han demostrado variaciones en la respuesta en función de las variantes genéticas de los individuos. Dos fármacos han concentrado el interés mundial: la warfarina, un anticoagulante oral, y el clopidogrel, un antiagregante plaquetario, los cuales actúan alterando diferentes vías que conforman la cascada de la coagulación, ya sea limitando directamente la producción de trombina o bloqueando otros activadores de la ruta. Los cambios genéticos que se han asociado a la reducción de la actividad enzimática de estos fármacos ocurren en los genes, CYP2C19 para clopidogrel y CYP2C9 y VKORC1 para warfarina. Las variaciones genéticas identificadas para estos genes se relacionan con perfiles genotípicos que determinan la dosis requerida para el paciente. Es allí donde ciencias como la farmacogenómica tienen como fin brindar una ayuda diagnóstica más objetiva al optimizar tiempo y recursos, así como disminuir el riesgo del paciente a sufrir complicaciones que comprometan su vida.

Abstract The study of the variations in DNA and RNA sequencing as regards the response to different drugs has become a particularly promising area for their application in clinical genomics and personalised genome studies. Drugs of daily use in the treatment of cardiovascular diseases have shown variations in the response depending on the genetic variations of the individuals. Two drugs have gathered worldwide interest: warfarin, an oral anticoagulant, and clopidogrel, an antiplatelet drug, which act by altering different pathways that constitute the clotting cascade either by directly limiting the production of thrombin, or by blocking other activators of the pathway. The genetic changes that have been associated with the reduction in the enzyme activity of these drugs occur in the genes, CYP2C19 for clopidogrel, and the genes, CYP2C9 and VKORC1 for warfarin. The genetic variations identified for these genes are associated with genotype profiles that determine the dose required by the patient. It is from there, sciences like pharmacogenomics have as their aim to provide a more objective diagnostic aid in order to optimise time and resources, as well as to reduce the risk of the patient suffering complications that may compromise their life.

Detection of Histoplasma capsulatum in Organic Fertilizers by Hc100 Nested Polymerase Chain Reaction and Its Correlation with the Physicochemical and Microbiological Characteristics of the Samples.

Histoplasma capsulatum is the causative agent of histoplasmosis and this fungus inhabits soils rich in phosphorus and nitrogen that are enriched with bird and bat manure. The replacement of organic matter in agroecosystems is necessary in the tropics, and the use of organic fertilizers has increased. Cases and outbreaks due to the presence of the fungus in these components have been reported. The Instituto Colombiano Agropecuario resolution 150 of 2003 contains the parameters set by the Colombian Technical Standard (NTC 5167) on the physicochemical and microbiological features of fertilizers, but it does not regulate the search for H. capsulatum. The aim of this study was to demonstrate H. capsulatum presence in organic fertilizers by nested polymerase chain reaction (PCR). A total of 239 samples were collected: 201 (84.1%) corresponded to organic fertilizers, 30 (12.5%) to bird excrement, and 8 (3.4%) to cave soils. The Hc100 nested PCR had a detection limit of 0.1 pg/µL and a specificity of 100%. A total of 25 (10.5%) samples were positive and validated by sequencing. Seven of the positive samples represented locations where H. capsulatum was previously detected, suggesting the persistence of the fungus. No significant correlations were detected between the physicochemical and microbiological parameters with the presence of H. capsulatum by nested PCR, indicating the fungus existence in organic fertilizers that complied with the NTC 5167. The Hc100 nested PCR targeting H. capsulatum standardized in this work will improve the evaluation of organic fertilizers and ensure the prevention of outbreaks and cases due to manufacturing, marketing, and use of fertilizers contaminated with H. capsulatum.

Paracoccidioides brasiliensis PbP27 gene: knockdown procedures and functional characterization.

Paracoccidioides brasiliensis PbP27 gene encodes a protein localized in both the fungal cytoplasm and cell wall. The parasitic infectious form produces this protein preferentially with the gene's expression varying between the fungus phylogenetic species. The biological function of the native p27 has yet to be determined during either growth of the yeast or host infection. Therefore, in this study, through the use of antisense RNA technology and Agrobacterium tumefaciens-mediated transformation, we generated mitotically stable PbP27 mutants (PbP27 aRNA) with the goal to evaluate the role of p27 in the biology and virulence of this fungus. PbP27 expression was reduced 60-75% in mutants, as determined by real-time PCR in correlation with a decrease in p27 expression. No alterations in the growth curve or in the ability to shift from mycelia to yeast or from yeast to mycelia were observed in PbP27 aRNA strains; however, we did observe a reduction in cell vitality. Moreover, a decrease in cell viability of PbP27 aRNA yeast cells after interaction with IFN-γ-stimulated macrophages was detected. Based on these results, we propose that p27 plays a role in yeast cell architecture and represents one of the mechanisms employed by this fungus for its interaction with the monocyte/macrophage system.

Inhibition of PbGP43 expression may suggest that gp43 is a virulence factor in Paracoccidioides brasiliensis.

Glycoprotein gp43 is an immunodominant diagnostic antigen for paracoccidioidomycosis caused by Paracoccidioides brasiliensis. It is abundantly secreted in isolates such as Pb339. It is structurally related to beta-1,3-exoglucanases, however inactive. Its function in fungal biology is unknown, but it elicits humoral, innate and protective cellular immune responses; it binds to extracellular matrix-associated proteins. In this study we applied an antisense RNA (aRNA) technology and Agrobacterium tumefaciens-mediated transformation to generate mitotically stable PbGP43 mutants (PbGP43 aRNA) derived from wild type Pb339 to study its role in P. brasiliensis biology and during infection. Control PbEV was transformed with empty vector. Growth curve, cell vitality and morphology of PbGP43 aRNA mutants were indistinguishable from those of controls. PbGP43 expression was reduced 80-85% in mutants 1 and 2, as determined by real time PCR, correlating with a massive decrease in gp43 expression. This was shown by immunoblotting of culture supernatants revealed with anti-gp43 mouse monoclonal and rabbit polyclonal antibodies, and also by affinity-ligand assays of extracellular molecules with laminin and fibronectin. In vitro, there was significantly increased TNF-α production and reduced yeast recovery when PbGP43 aRNA1 was exposed to IFN-γ-stimulated macrophages, suggesting reduced binding/uptake and/or increased killing. In vivo, fungal burden in lungs of BALB/c mice infected with silenced mutant was negligible and associated with decreased lung ΙΛ-10 and IL-6. Therefore, our results correlated low gp43 expression with lower pathogenicity in mice, but that will be definitely proven when PbGP43 knockouts become available. This is the first study of gp43 using genetically modified P. brasiliensis.

Involvement of the 90 kDa heat shock protein during adaptation of Paracoccidioides brasiliensis to different environmental conditions.

HSP90 is a molecular chaperone that participates in folding, stabilization, activation, and assembly of several proteins, all of which are key regulators in cell signaling. In dimorphic pathogenic fungi such as Paracoccidioides brasiliensis, the adaptation to a higher temperature, acid pH and oxidative stress, is an essential event for fungal survival and also for the establishing of the infectious process. To further understand the role of this protein, we used antisense RNA technology to generate a P. brasiliensis isolate with reduced PbHSP90 gene expression (PbHSP90-aRNA). Reduced expression of HSP90 decreased yeast cell viability during batch culture growth and increased susceptibility to acid pH environments and imposed oxidative stress. Also, PbHSP90-aRNA yeast cells presented reduced viability upon interaction with macrophages. The findings presented here suggest a protective role for HSP90 during adaptation to hostile environments, one that promotes survival of the fungus during host-pathogen interactions.

The hydrolase PbHAD32 participates in the adherence of Paracoccidioides brasiliensis conidia to epithelial lung cells.

Adherence of the dimorphic pathogenic fungus Paracoccidioides brasiliensis to lung epithelial cells is considered an essential event for the establishment of infection. We have previously shown that the PbHAD32 hydrolase is important in this early stage of the host-P. brasiliensis yeast cells interaction. The aim of this study was to further elucidate the role of PbHAD32 in conidial thermodimorphism and their interaction with lung epithelial cells. Analysis of the PbHAD32 gene expression revealed higher mRNA levels during the conidia to mycelia (C-M) germination when compared to the conidia to yeast (C-Y) transition. Moreover, PbHAD32 was consistently expressed at higher levels upon infection of lung epithelial cells, but to a greater extent when conidia germinated to produce mycelia. Interestingly, at this particular transitional stage, more conidia adhered to epithelial cells than when they were transiting to the yeast form. Altogether our data further corroborates the importance of PbHAD32 during initial adherence to host cells and suggest that the 32-KDa hydrolase may also participate at different stages of the C-M and C-Y conversions.

Kinetic analysis of gene expression during mycelium to yeast transition and yeast to mycelium germination in Paracoccidioides brasiliensis.

INTRODUCTION: Paracoccidioidomycosis is an endemic systemic mycosis caused by Paracoccidioides brasiliensis, a thermally dimorphic fungus that in tissues and cultures at 37°C grows as a yeast while at lower temperatures (less than 24°C) it becomes a mold; however the genes that rule these processes and their expression are poorly understood. OBJECTIVE: This research focused on the kinetic expression of certain genes in P. brasiliensis throughout the dimorphic process, one that involves the transition from the mycelium to yeast forms and the germination from the yeast to mycelium form. MATERIALS AND METHODS: A real-time quantitative polymerase chain reaction (RT-qPCR) was optimized to measure the expression of ten genes connected with diverse cellular functions including cell synthesis and wall structure, oxidative stress response, heat shock response, metabolism, proteins' processing, solute transport across the cell membrane and signal transduction pathways at different time points during the mycelia to yeast transition, as well as in the yeast to mycelia germination processes. RESULTS: Genes involved in cell synthesis and wall structure, metabolism and signal transduction were differentially expressed and highly up-regulated during the yeast to mycelia germination process; on the other hand, genes involved in heat shock response, cell synthesis and wall structure were highly up-regulated during the mycelia to yeast transition process. The remaining genes were differentially regulated during both processes. CONCLUSION: In this work the up-regulation of certain genes involved in the morphological changes occurring in P. brasiliensis yeast and mycelia forms were confirmed, indicating that these biological processes play an important role during the host-pathogen interactions, as well as in the fungus adaptation to environmental conditions.

Background selection at the chitin synthase II (chs2) locus in Paracoccidioides brasiliensis species complex.

In fungi, chitin synthases have been classified into five classes according to differences in regions of high sequence conservation. The current investigation was initiated to examine the causes for the polymorphism patterns found in a class II chitin synthase gene (chs2) of Paracoccidioides brasiliensis, in an attempt to determine the evolutionary forces affecting the chitin synthesis metabolic pathway. Neutrality tests were applied to the chs2 sequences exhibited by P. brasiliensis species complex. According to these tests and based on non-synonymous differences, P. brasiliensis data rejected the null hypothesis for a pure drift mutational process owing to a large excess of unique polymorphisms. In contrast, the synonymous and intron site differences did not reject the null hypothesis. This pattern appears consistent with weak selection against most amino acid changes, in which the effect of background selection was not detectable at synonymous nor at intron sites.

Transcriptome analysis and molecular studies on sulfur metabolism in the human pathogenic fungus Paracoccidioides brasiliensis.

The dimorphic pathogenic fungus Paracoccidioides brasiliensis can grow as a prototroph for organic sulfur as a mycelial (non-pathogenic) form, but it is unable to assimilate inorganic sulfur as a yeast (pathogenic) form. Temperature and the inability to assimilate inorganic sulfur are the single conditions known to affect P. brasiliensis mycelium-to-yeast (M-Y) dimorphic transition. For a comprehensive evaluation of genes that have their expression modulated during the M-Y transition in different culture media, we performed a large-scale analysis of gene expression using a microarray hybridization approach. The results of the present work demonstrate the use of microarray hybridization analysis to examine gene expression during the M-Y transition in minimal medium and compare these results with the M-Y transition in complete medium. Our results showed that about 95% of the genes in our microarray are mainly responding to the temperature trigger, independently of the media where the M-Y transition took place. As a preliminary step to understand the inorganic sulfur inability in P. brasiliensis yeast form, we decided to characterize the mRNA accumulation of several genes involved in different aspects of both organic and inorganic sulfur assimilation. Our results suggest that although P. brasiliensis cannot use inorganic sulfur as a single sulfur source to initiate both M-Y transition and Y growth, the fungus can somehow use both organic and inorganic pathways during these growth processes.