Transcriptional study of genes involved in the passage from teliospore to hyphae stage in the fungus Thecaphora frezii, the causal agent of peanut smut.

Peanuts (Arachis hypogaea L.) are among the most important leguminous crops in Argentina. During the growing season, they are frequently attacked by fungal diseases, including Thecaphora frezii. The spores of T. frezii are structures that confer resistance to this phytopathogen. The transition from teliospore to hypha is a characteristic process of some fungi, which is essential for completing their life cycle. Using the transcriptomes of teliospores and hyphae of T. frezii, we aimed to identify genes that were differentially expressed during this transition, and we found 134 up-regulated and 66 down-regulated genes, which would participate in different cellular processes such as: (a) cell cycle and DNA processing; (b) cell fate; (c) rescue, defense and cellular virulence; (d) detoxification by CYP450; (e) energy; (f) nutrient interaction and nutritional adaptation; (g) metabolism; (g) proteins with binding functions or cofactor requirements; (h) stress, cell differentiation and biogenesis of cell components; and (i) transport, cell communication and transcription. The identification of genes in T. frezii and their expression levels during different stages of differentiation could contribute to our understanding of the biological mechanisms in this fungus.

Expression and localization of tubulin isotypes and its mRNAs during Thecaphora frezii developments.

Thecaphora frezii is a phytopathogenic fungus that infects Arachys hypogaea L. and produces peanut smut. It has three ontological stages teliospores, basidiospores, and hyphae. Microtubules are cellular structures that participate in various important cellular processes. In this work, we analyzed the presence and location of α-tubulin isotypes and enzymes that participate in tyrosination-detyrosination in the three stages of T. frezii. Although both tyrosinated and detyrosinated tubulin seem to be associated with a membrane fraction component that gives it a similar behavior to integral proteins, in the soluble cytosolic fraction, only detyrosinated tubulin was detected, not tyrosinated tubulin. The presence of α-tubulin was not detected using the monoclonal antibody DM1A as neither acetylated tubulin. The RNA-Seq analysis showed the presence of α, ß, and γ-tubulins and the genes that codes for tyrosine-tubulin ligase and cytosolic carboxypeptidase 1, enzymes that are involved in post-translational modification processes. These sequences showed a high percentage of identity and homology with Ustilago maydis, Thecaphora thlaspeos, and Anthracocystis flocculosa. This is the first report for tubulins subpopulations and the cellular distribution in T. frezii, which together with the data obtained by RNA-Seq contribute to the knowledge of the pathogen, which will allow the development of control strategies.

Loss of the tRNALysCUU encoding gene, Chr-11 tRNA-Lys-CUU, is not associated with Type 2 diabetes mellitus.

AIM: To investigate the presence/absence of the Chr-11 tRNA-Lys-CUU gene as a marker for genetic predisposition to Type 2 diabetes mellitus (T2DM). METHODS: We enrolled 122 patients diagnosed with T2DM and 77 non-diabetic individuals. We evaluated clinical and biochemical parameters (body mass index, hypertension, cholesterol levels, glycosylated hemoglobin, triglycerides, etc.), and performed a genotypic profiling of Chr-11 tRNA-Lys-CUU by polymerase chain reaction analyses. RESULTS: Approximately one third of the population lacked Chr-11 tRNA-Lys-CUU. We did not observe a statistically significant association between the presence/absence of Chr-11 tRNA-Lys-CUU and T2DM. CONCLUSION: The genotypic distribution of Chr-11 tRNA-Lys-CUU in our population was consistent to that reported by others. This gene failed as a marker for T2DM predisposition.

Rol de variantes genéticas en el desarrollo de Enfermedad Renal Crónica en pacientes con Diabetes Mellitus Tipo 2 / Role of genetic variants to the development of Chronic Kidney Disease in patients with Type 2 Diabetes Mellitus

La Enfermedad Renal Crónica (ERC) es una afección que perjudica a un gran número de pacientes. Una de las causas es la Nefropatía en pacientes con Diabetes Mellitus Tipo 2 (DM2). OBJETIVO: Indagar si las presencias de variantes genéticas contribuyen al desarrollo de ERC en pacientes con DM2. Materiales y métodos: se evaluaron criterios clínicos, bioquímicos y moleculares en 25 pacientes con DM2. Los polimorfismos se analizaron mediante PCR-RFLP para ECA (rs4646994); CDKAL1 (rs7756992); e-NOS (rs1799983) y SLC12A3 (rs11643718). RESULTADOS: El análisis estadístico mediante modelo dominante arrojaron para: ECA (rs4646994) (OR=1,33 (IC 95%) 0,25-7,01; p=0,73); CDKAL1 (rs7756992) (OR= 1 (IC 95%) 0,14-7,39; p=NA); e-NOS (rs1799983) (OR= 0,29 (IC 95%) 0,05-1,57; p=0,14) y SLC12A3 (rs11643718 (OR= 1,62 (IC 95%) 0,19-13,93; p=0,66). CONCLUSIONES: ninguna de las variantes evaluadas en los genes ECA, CDKAL1, e-NOS y SLC12A3 mostraron asociaciones positivas o negativas con el riesgo a desarrollar ERC en pacientes con DM2. (AU)

Chronic Kidney Disease (CKD) is a condition that affects a large number of patients. One cause is the Nephropathy in Type 2 Diabetes Mellitus (DM2).patients. OBJECTIVE: Evaluate if some polymorphisms contribute to CKD risk in DM2 patients. Materials and methods: clinical, biochemical and molecular parameters from 25 patients with DM2 were evaluated. The polymorphisms were analyzed by PCR-RFLP for the ECA (rs4646994); CDKAL1 (rs7756992); e-NOS (rs1799983) and SLC12A3 (rs11643718) genes. RESULTS: Statistical analysis using a dominant model showed: ACE (rs4646994) (OR = 1.33 (95% CI) 0.25-7.01, p = 0.73); CDKAL1 (rs7756992) (OR = 1 (95% CI) 0.14-7.39; p = NA); e-NOS (rs1799983) (OR = 0.29 (95% CI) 0.05- 1.57; p = 0.14) and SLC12A3 (rs11643718 (OR = 1.62 (95% CI) 0.19-) 13.93, p = 0.66). CONCLUSIONS: none of the evaluated variants in ACE, CDKAL1, e-NOS and SLC12A3 genes showed positive or negative associations with CKD risk in DM2 patients.

Efectividad de la metformina en pacientes con diabetes tipo II según variantes en el gen SLC22A1 / Effectiveness of Metformin in patients with type II diabetes related to variants in the SLC22A1 gene / Eficácia de Metformina em doentes com diabetes tipo II, relacionado com variantes do gene SLC22A1

La diabetes mellitus tipo II (DM II) es una enfermedad que afecta una gran cantidad de individuos. Un medicamento empleado en el tratamiento de los pacientes es la metformina. Este medicamento es transportado al interior de los hepatocitos por un transportador codificado por el gen SLC22A1. Variantes en el gen con actividad reducida pueden disminuir la cantidad de metformina disponible en el hígado y reducir la respuesta terapéutica. Se propuso evaluar diferentes parámetros bioquímicos en relación a la dosis de metformina y la presencia de variantes en el transportador. Se estudiaron 103 pacientes mayores de 18 años con diagnóstico de DM II, tratados con 1700 mg/día de metformina por más de 6 meses. Se analizaron 5 polimorfismos en el gen SLC22A1, glucemia, HbA1c, función hepática, perfil lipídico y renal. Los niveles de HbA1c y de glucemia fueron más elevados en los pacientes que presentaban los polimorfismos R61C, G401S, M420del y G465R aunque la diferencia fue estadísticamente significativa sólo para la HbA1c en los pacientes que presentaban las variantes M420del y G465R (p=0,0273 y 0,0018, respectivamente). La presencia de polimorfismos con actividad reducida en el gen SLC22A1 afecta los niveles de glucemia y de HbA1c en pacientes con DM II cuando son tratados con metformina.(AU)

Diabetes mellitus type II (DM II) is a disease that affects a large number of individuals. One of the drugs used for the treatment is metformin. Metformin is delivered into hepatocytes by a transporter encoded by the SLC22A1 gene. Gene variants with reduced activity may decrease the amount of metformin available in the liver and reduce the therapeutic response. Various biochemical parameters were evaluated in relation to the metformin dose and the presence of transporter variants. A total of 103 patients older than 18 diagnosed with DM II who were treated with 1700 mg/day of metformin for more than six months were studied. Five polymorphisms in the SLC22A1 gene were analyzed as well as glycemia, HbA1c level, liver function, and lipid and kidney profiles. HbA1c and glycemia levels were higher in patients with the R61C, G401S, M420del and G465R polymorphisms; although the difference was statistically significant only for HbA1c in patients with the M420del and G465R variants (p=0.0273 and 0.0018, respectively). Polymorphisms with reduced activity in the SLC22A1 gene affect blood glucose levels and HbA1c in patients with DM II when they are treated with metformin.(AU)

O diabetes mellitus tipo II (DM II) é uma doenþa que afeta uma grande quantidade de indivíduos. Um medicamento utilizado no tratamento dos doentes é a metformina. Esse medicamento é transportado no interior dos hepatócitos por um transportador codificado pelo gene SLC22A1. Variantes no gene com atividade reduzida podem diminuir a quantidade de Metformina disponível no fígado e reduzir a resposta terapÛutica. Prop¶s-se avaliar diferentes parÔmetros bioquímicos em relaþÒo O dose da metformina e O presenþa de variantes no transportador. Foram estudados 103 pacientes maiores de 18 anos com diagnóstico de DM II tratados com 1700 mg/dia de metformina por mais de 6 meses. Foram analisados 5 polimorfismos no gene SLC22A1; glicemia, HbA1c, funþÒo hepática, perfil lipídico e renal. Os níveis de HbA1c e de glicemia foram superiores em doentes que apresentavam os polimorfismos R61C, G401S, M420del e G465R; embora a diferenþa seja estatisticamente significativa apenas para o HbA1c nos doentes que apresentavam as variantes M420del e G465R (p=0,0273 e 0,0018; respectivamente). A presenþa de polimorfismos com atividade reduzida no gene SLC22A1 afeta os níveis da glicemia e do HbA1c em doentes com DM II quando sÒo tratados com metformina.(AU)

Efectividad de la metformina en pacientes con diabetes tipo II según variantes en el gen SLC22A1 / Effectiveness of Metformin in patients with type II diabetes related to variants in the SLC22A1 gene / Eficácia de Metformina em doentes com diabetes tipo II, relacionado com variantes do gene SLC22A1

La diabetes mellitus tipo II (DM II) es una enfermedad que afecta una gran cantidad de individuos. Un medicamento empleado en el tratamiento de los pacientes es la metformina. Este medicamento es transportado al interior de los hepatocitos por un transportador codificado por el gen SLC22A1. Variantes en el gen con actividad reducida pueden disminuir la cantidad de metformina disponible en el hígado y reducir la respuesta terapéutica. Se propuso evaluar diferentes parámetros bioquímicos en relación a la dosis de metformina y la presencia de variantes en el transportador. Se estudiaron 103 pacientes mayores de 18 años con diagnóstico de DM II, tratados con 1700 mg/día de metformina por más de 6 meses. Se analizaron 5 polimorfismos en el gen SLC22A1, glucemia, HbA1c, función hepática, perfil lipídico y renal. Los niveles de HbA1c y de glucemia fueron más elevados en los pacientes que presentaban los polimorfismos R61C, G401S, M420del y G465R aunque la diferencia fue estadísticamente significativa sólo para la HbA1c en los pacientes que presentaban las variantes M420del y G465R (p=0,0273 y 0,0018, respectivamente). La presencia de polimorfismos con actividad reducida en el gen SLC22A1 afecta los niveles de glucemia y de HbA1c en pacientes con DM II cuando son tratados con metformina.

Diabetes mellitus type II (DM II) is a disease that affects a large number of individuals. One of the drugs used for the treatment is metformin. Metformin is delivered into hepatocytes by a transporter encoded by the SLC22A1 gene. Gene variants with reduced activity may decrease the amount of metformin available in the liver and reduce the therapeutic response. Various biochemical parameters were evaluated in relation to the metformin dose and the presence of transporter variants. A total of 103 patients older than 18 diagnosed with DM II who were treated with 1700 mg/day of metformin for more than six months were studied. Five polymorphisms in the SLC22A1 gene were analyzed as well as glycemia, HbA1c level, liver function, and lipid and kidney profiles. HbA1c and glycemia levels were higher in patients with the R61C, G401S, M420del and G465R polymorphisms; although the difference was statistically significant only for HbA1c in patients with the M420del and G465R variants (p=0.0273 and 0.0018, respectively). Polymorphisms with reduced activity in the SLC22A1 gene affect blood glucose levels and HbA1c in patients with DM II when they are treated with metformin.

O diabetes mellitus tipo II (DM II) é uma doença que afeta uma grande quantidade de indivíduos. Um medicamento utilizado no tratamento dos doentes é a metformina. Esse medicamento é transportado no interior dos hepatócitos por um transportador codificado pelo gene SLC22A1. Variantes no gene com atividade reduzida podem diminuir a quantidade de Metformina disponível no fígado e reduzir a resposta terapêutica. Propôs-se avaliar diferentes parâmetros bioquímicos em relação à dose da metformina e à presença de variantes no transportador. Foram estudados 103 pacientes maiores de 18 anos com diagnóstico de DM II tratados com 1700 mg/dia de metformina por mais de 6 meses. Foram analisados 5 polimorfismos no gene SLC22A1; glicemia, HbA1c, função hepática, perfil lipídico e renal. Os níveis de HbA1c e de glicemia foram superiores em doentes que apresentavam os polimorfismos R61C, G401S, M420del e G465R; embora a diferença seja estatisticamente significativa apenas para o HbA1c nos doentes que apresentavam as variantes M420del e G465R (p=0,0273 e 0,0018; respectivamente). A presença de polimorfismos com atividade reduzida no gene SLC22A1 afeta os níveis da glicemia e do HbA1c em doentes com DM II quando são tratados com metformina.