Your search keyword '"da Silva, Francielly Morena"' showing total 8 results

1. Biological sex divergence in transcriptomic profiles during the onset of hindlimb unloading-induced atrophy.

Author

Tsitkanou, Stavroula, da Silva, Francielly Morena, Cabrera, Ana Regina, Schrems, Eleanor R., Murach, Kevin A., Washington, Tyrone A., Rosa-Caldwell, Megan E., and Greene, Nicholas P.

Subjects

*BIOLOGICAL divergence, *PROTEOLYSIS, *SEX (Biology), *INTENSIVE care patients, *MUSCULAR atrophy, *HINDLIMB, *ATROPHY

Abstract

Disuse-induced muscle atrophy is a common clinical problem observed mainly in older adults, intensive care units patients, or astronauts. Previous studies presented biological sex divergence in progression of disuse-induced atrophy along with differential changes in molecular mechanisms possibly underlying muscle atrophy. The aim of this study was to perform transcriptomic profiling of male and female mice during the onset and progression of unloading disuse-induced atrophy. Male and female mice underwent hindlimb unloading (HU) for 24, 48, 72, and 168 h (n = 8/group). Muscles were weighed for each cohort and gastrocnemius was used for RNA-sequencing analysis. Females exhibited muscle loss as early as 24 h of HU, whereas males after 168 h of HU. In males, pathways related to proteasome degradation were upregulated throughout 168 h of HU, whereas in females these pathways were upregulated up to 72 h of HU. Lcn2, a gene contributing to regulation of myogenesis, was upregulated by 6.46- to 19.86-fold across all time points in females only. A reverse expression of Fosb, a gene related to muscle degeneration, was observed between males (4.27-fold up) and females (4.57-fold down) at 24-h HU. Mitochondrial pathways related to tricarboxylic acid (TCA) cycle were highly downregulated at 168 h of HU in males, whereas in females this downregulation was less pronounced. Collagen-related pathways were consistently downregulated throughout 168 h of HU only in females, suggesting a potential biological sex-specific protective mechanism against disuse-induced fibrosis. In conclusion, females may have protection against HU-induced skeletal muscle mitochondrial degeneration and fibrosis through transcriptional mechanisms, although they may be more vulnerable to HU-induced muscle wasting compared with males. [ABSTRACT FROM AUTHOR]

Published

2023

2. A molecular signature defining exercise adaptation with ageing and in vivo partial reprogramming in skeletal muscle

Author

Jones, Ronald G., primary, Dimet‐Wiley, Andrea, additional, Haghani, Amin, additional, da Silva, Francielly Morena, additional, Brightwell, Camille R., additional, Lim, Seongkyun, additional, Khadgi, Sabin, additional, Wen, Yuan, additional, Dungan, Cory M., additional, Brooke, Robert T., additional, Greene, Nicholas P., additional, Peterson, Charlotte A., additional, McCarthy, John J., additional, Horvath, Steve, additional, Watowich, Stanley J., additional, Fry, Christopher S., additional, and Murach, Kevin A., additional

Published

2023

3. Mitochondrial Quality Control Markers During The Onset Of Colorectal Cancer-induced Cachexia: A Biological Sex Comparison

Author

Cabrera, Ana Regina, primary, Deaver, J. William, additional, Lim, Seongkyun, additional, da Silva, Francielly Morena, additional, Schrems, Eleanor R., additional, Saling, Landen W., additional, Campitelli, Anthony, additional, Washington, Tyrone A., additional, and Greene, Nicholas P., additional

Published

2022

4. Transcriptomic Analysis Of Soleus Muscle In Response To Sarcopenic Obesity

Author

Schrems, Eleanor R., primary, Saling, Landen W., additional, Williams, Breanna M., additional, Lim, Seongkyun, additional, Da Silva, Francielly Morena, additional, Cabrera, Regina, additional, Greene, Nicholas P., additional, and Washington, Tyrone A., additional

Published

2022

5. Growth Differentiation Factor 5 Is A Paracrine Regulator In Sarcopenic Obesity

Author

Saling, Landen W., primary, Schrems, Eleanor R., additional, Lim, Seongkyun, additional, da Silva, Francielly Morena, additional, Cabrera, Ana Regina, additional, Williams, Breanna, additional, Murach, Kevin A., additional, Greene, Nicholas P., additional, and Washington, Tyrone A., additional

Published

2022

6. C26 Colorectal Cancer-cachexia Implications In Muscle Contractile Function And Calcium Regulation: A Biological Sex Comparison

Author

da Silva, Francielly Morena, primary, Deaver, John William, additional, Cabrera, Ana Regina, additional, Lim, Seongkyun, additional, Schrems, Eleanor, additional, Saling, Landen, additional, Washington, Tyrone A., additional, and Greene, Nicholas P., additional

Published

2022

7. Differential Induction Of Regulators Of Protein Turnover During C26-induced Cancer Cachexia Between Biological Sexes

Author

Lim, Seongkyun, primary, Deaver, J. William, additional, da Silva, Francielly Morena, additional, Cabrera, Ana Regina, additional, Schrems, Eleanor R., additional, Saling, Landen W., additional, Campitelli, Anthony, additional, Washington, Tyrone A., additional, and Greene, Nicholas P., additional

Published

2022

8. Development of metabolic and contractile alterations in development of cancer cachexia in female tumor-bearing mice.

Author

Lim, Seongkyun, William Deaver, J., Rosa-Caldwell, Megan E., Haynie, Wesley S., da Silva, Francielly Morena, Cabrera, Ana Regina, Schrems, Eleanor R., Saling, Landen W., Jansen, Lisa T., Dunlap, Kirsten R., Wiggs, Michael P., Washington, Tyrone A., and Greene, Nicholas P.

Subjects

CACHEXIA, CARCINOGENESIS, UBIQUITIN ligases, MICE, TIBIALIS anterior

Abstract

Cancer cachexia (CC) results in impaired muscle function and quality of life and is the primary cause of death for ~20%–30% of patients with cancer. We demonstrated mitochondrial degeneration as a precursor to CC in male mice; however, whether such alterations occur in females is currently unknown. The purpose of this study was to elucidate muscle alterations in CC development in female tumor-bearing mice. Sixty female C57BL/6J mice were injected with PBS or Lewis lung carcinoma at 8 wk of age, and tumors developed for 1, 2, 3, or 4 wk to assess the time course of cachectic development. In vivo muscle contractile function, protein fractional synthetic rate (FSR), protein turnover, and mitochondrial health were assessed. Three- and four-week tumor-bearing mice displayed a dichotomy in tumor growth and were reassigned to high tumor (HT) and low tumor (LT) groups. HT mice exhibited lower soleus, tibialis anterior, and fat weights than PBS mice. HT mice showed lower peak isometric torque and slower one-half relaxation time than PBS mice. HT mice had lower FSR than PBS mice, whereas E3 ubiquitin ligases were greater in HT than in other groups. Bnip3 (mitophagy) and pMitoTimer red puncta (mitochondrial degeneration) were greater in HT mice, whereas Pgc1α1 and Tfam (mitochondrial biogenesis) were lower in HT mice than in PBS mice. We demonstrate alterations in female tumor-bearing mice where HT exhibited greater protein degradation, impaired muscle contractility, and mitochondrial degeneration compared with other groups. Our data provide novel evidence for a distinct cachectic development in tumorbearing female mice compared with previous male studies. [ABSTRACT FROM AUTHOR]

Published

2022