Your search keyword '"Knittel, Thiago L"' showing total 4 results

1. An Intricate Network Involving the Argonaute ALG-1 Modulates Organismal Resistance to Oxidative Stress.

Author

Vergani-Junior, Carlos A., Moro, Raíssa De P., Pinto, Silas, De-Souza, Evandro A., Camara, Henrique, Braga, Deisi L., Tonon-da-Silva, Guilherme, Knittel, Thiago L., Ruiz, Gabriel P., Ludwig, Raissa G., Massirer, Katlin B., Mair, William B., and Mori, Marcelo A.

Abstract

Cellular response to redox imbalance is crucial for organismal health. microRNAs are implicated in stress responses. ALG-1, the C. elegans ortholog of human AGO2, plays an essential role in microRNA processing and function. Here we investigated the mechanisms governing ALG-1 expression in C. elegans and the players controlling lifespan and stress resistance downstream of ALG-1. We show that upregulation of ALG-1 is a shared feature in conditions linked to increased longevity (e.g., germline-deficient glp-1 mutants). ALG-1 knockdown reduces lifespan and oxidative stress resistance, while overexpression enhances survival against pro-oxidant agents but not heat or reductive stress. R02D3.7 represses alg-1 expression, impacting oxidative stress resistance at least in part via ALG-1. microRNAs upregulated in glp-1 mutants (miR-87-3p, miR-230-3p, and miR-235-3p) can target genes in the protein disulfide isomerase pathway and protect against oxidative stress. This study unveils a tightly regulated network involving transcription factors and microRNAs which controls organisms' ability to withstand oxidative stress. In this study, Vergani-Junior et al. show that increased expression of the argonaute ALG-1 in long-lived worms improves oxidative stress resistance through the modulation of microRNAs that downregulate the protein disulfide isomerase pathway. [ABSTRACT FROM AUTHOR]

Published

2024

2. SARS-CoV-2 uses CD4 to infect T helper lymphocytes.

Author

Brunetti, Natalia S., Davanzo, Gustavo G., de Moraes, Diogo, Ferrari, Allan J. R., Souza, Gabriela F., Muraro, Stéfanie Primon, Knittel, Thiago L., Boldrini, Vinicius O., Monteiro, Lauar B., Virgílio-da-Silva, João Victor, Profeta, Gerson S., Wassano, Natália S., Santos, Luana Nunes, Carregari, Victor C., Dias, Artur H. S., Veras, Flavio P., Tavares, Lucas A., Forato, Julia, Castro, Icaro M. S., and Silva-Costa, Lícia C.

Published

2023

3. Dynamic changes in DICER levels in adipose tissue control metabolic adaptations to exercise.

Author

Brandão, Bruna B., Madsen, Søren, Rabiee, Atefeh, Oliverio, Matteo, Ruiz, Gabriel P., Ferrucci, Danilo L., Branquinho, Jéssica L., Razolli, Daniela, Pinto, Silas, Nielsen, Thomas S., Festuccia, William T., Martins, Adriano S., Guerra, Beatriz A., Knittel, Thiago L., Søgaard, Ditte, Larsen, Steen, Helge, Jørn W., Brandauer, Josef, Velloso, Lício A., and Emanuelli, Brice

Subjects

ADIPOSE tissues, METABOLIC regulation, AEROBIC exercises, SKELETAL muscle, FAT cells

Abstract

DICER is a key enzyme in microRNA (miRNA) biogenesis. Here we show that aerobic exercise training up-regulates DICER in adipose tissue of mice and humans. This can be mimicked by infusion of serum from exercised mice into sedentary mice and depends on AMPK-mediated signaling in both muscle and adipocytes. Adipocyte DICER is required for whole-body metabolic adaptations to aerobic exercise training, in part, by allowing controlled substrate utilization in adipose tissue, which, in turn, supports skeletal muscle function. Exercise training increases overall miRNA expression in adipose tissue, and up-regulation of miR-203-3p limits glycolysis in adipose under conditions of metabolic stress. We propose that exercise training-induced DICER-miR-203-3p up-regulation in adipocytes is a key adaptive response that coordinates signals from working muscle to promote whole-body metabolic adaptations. [ABSTRACT FROM AUTHOR]

Published

2020

4. RNA interference may result in unexpected phenotypes in Caenorhabditis elegans.

Author

De-Souza, Evandro A, Camara, Henrique, Salgueiro, Willian G, Moro, Raíssa P, Knittel, Thiago L, Tonon, Guilherme, Pinto, Silas, Pinca, Ana Paula F, Antebi, Adam, Pasquinelli, Amy E, Massirer, Katlin B, and Mori, Marcelo A

Published

2019