Claudiane Guay

Publications | Phd and Masters theses

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30 publications

2024 | 2022 | 2021 | 2020 | 2019 | 2018 | 2017 | 2016 | 2015 | 2013 | 2012 | 2011 |
 
tRNA-derived fragments in T lymphocyte-beta cell crosstalk and in type 1 diabetes pathogenesis in NOD mice.
Brozzi F., Jacovetti C., Cosentino C., Menoud V., Wu K., Bayazit M.B., Abdulkarim B., Iseli C., Guex N., Guay C. et al., 2024/10. Diabetologia, 67 (10) pp. 2260-2274. Peer-reviewed.
The mitochondrial tRNA-derived fragment, mt-tRF-Leu<sup>TAA</sup>, couples mitochondrial metabolism to insulin secretion.
Jacovetti C., Donnelly C., Menoud V., Suleiman M., Cosentino C., Sobel J., Wu K., Bouzakri K., Marchetti P., Guay C. et al., 2024/06. Molecular metabolism, 84 p. 101955. Peer-reviewed.
Small RNAs derived from tRNA fragmentation regulate the functional maturation of neonatal β cells.
Bayazit M.B., Jacovetti C., Cosentino C., Sobel J., Wu K., Brozzi F., Rodriguez-Trejo A., Stoll L., Guay C., Regazzi R., 2022/07/12. Cell reports, 40 (2) p. 111069. Peer-reviewed.
Scrt1, a transcriptional regulator of β-cell proliferation identified by differential chromatin accessibility during islet maturation.
Sobel J., Guay C., Elhanani O., Rodriguez-Trejo A., Stoll L., Menoud V., Jacovetti C., Walker M.D., Regazzi R., 2021/04/22. Scientific reports, 11 (1) p. 8800. Peer-reviewed.
A circular RNA generated from an intron of the insulin gene controls insulin secretion.
Stoll L., Rodríguez-Trejo A., Guay C., Brozzi F., Bayazit M.B., Gattesco S., Menoud V., Sobel J., Marques A.C., Venø M.T. et al., 2020/11/05. Nature communications, 11 (1) p. 5611. Peer-reviewed.
 
A surrogate of Roux-en-Y gastric bypass (the enterogastro anastomosis surgery) regulates multiple beta-cell pathways during resolution of diabetes in ob/ob mice.
Amouyal C., Castel J., Guay C., Lacombe A., Denom J., Migrenne-Li S., Rouault C., Marquet F., Georgiadou E., Stylianides T. et al., 2020/08. EBioMedicine, 58 p. 102895. Peer-reviewed.
Roles of Noncoding RNAs in Islet Biology.
Guay C., Jacovetti C., Bayazit M.B., Brozzi F., Rodriguez-Trejo A., Wu K., Regazzi R., 2020/07/08. Comprehensive Physiology, 10 (3) pp. 893-932. Peer-reviewed.
Loss-of-function of the long non-coding RNA A830019P07Rik in mice does not affect insulin expression and secretion.
Guay C., Abdulkarim B., Tan J.Y., Dubuis G., Rütti S., Ross Laybutt D., Widmann C., Regazzi R., Marques A.C., 2020/04/14. Scientific reports, 10 (1) p. 6413. Peer-reviewed.
 
Circulating miRNA-150-5p is associated with immune-mediated early β-cell loss in a humanized mouse model.
Roat R., Hossain M.M., Christopherson J., Free C., Guay C., Regazzi R., Guo Z., 2019/03. Xenotransplantation, 26 (2) pp. e12474. Peer-reviewed.
Lymphocyte-Derived Exosomal MicroRNAs Promote Pancreatic β Cell Death and May Contribute to Type 1 Diabetes Development.
Guay C., Kruit J.K., Rome S., Menoud V., Mulder N.L., Jurdzinski A., Mancarella F., Sebastiani G., Donda A., Gonzalez B.J. et al., 2019/02/05. Cell metabolism, 29 (2) pp. 348-361.e6. Peer-reviewed.
Contribution of the Long Noncoding RNA H19 to β-Cell Mass Expansion in Neonatal and Adult Rodents.
Sanchez-Parra C., Jacovetti C., Dumortier O., Lee K., Peyot M.L., Guay C., Prentki M., Laybutt D.R., Van Obberghen E., Regazzi R., 2018/11. Diabetes, 67 (11) pp. 2254-2267. Peer-reviewed.
Circular RNAs as novel regulators of β-cell functions in normal and disease conditions.
Stoll L., Sobel J., Rodriguez-Trejo A., Guay C., Lee K., Venø M.T., Kjems J., Laybutt D.R., Regazzi R., 2018/03. Molecular metabolism, 9 pp. 69-83. Peer-reviewed.
Circulating Noncoding RNAs as Candidate Biomarkers of Endocrine and Metabolic Diseases
Sebastiani G., Guay C., Latreille M., 2018. International Journal of Endocrinology, 2018 pp. 1-2. Peer-reviewed.
Na+/Ca(2+ )Exchanger a Druggable Target to Promote beta -Cell Proliferation and Function
Papin J., Zummo F.P., Pachera N., Guay C., Regazzi R., Cardozo A.K., Herchuelz A., 2018. Journal of the Endocrine Society, 2 (7) pp. 631-645. Peer-reviewed.
MicroRNAs modulate core-clock gene expression in pancreatic islets during early postnatal life in rats.
Jacovetti C., Rodriguez-Trejo A., Guay C., Sobel J., Gattesco S., Petrenko V., Saini C., Dibner C., Regazzi R., 2017/10. Diabetologia, 60 (10) pp. 2011-2020. Peer-reviewed.
PIWI-interacting RNAs as novel regulators of pancreatic beta cell function.
Henaoui I.S., Jacovetti C., Guerra Mollet I., Guay C., Sobel J., Eliasson L., Regazzi R., 2017/10. Diabetologia, 60 (10) pp. 1977-1986. Peer-reviewed.
Exosomes as new players in metabolic organ cross-talk.
Guay C., Regazzi R., 2017/09. Diabetes, obesity & metabolism, 19 Suppl 1 pp. 137-146. Peer-reviewed.
 
Identification and Characterization of microRNAs Associated With Human β-Cell Loss in a Mouse Model.
Roat R., Hossain M.M., Christopherson J., Free C., Jain S., Guay C., Regazzi R., Guo Z., 2017/04. American journal of transplantation, 17 (4) pp. 992-1007. Peer-reviewed.
New emerging tasks for microRNAs in the control of β-cell activities
Guay Claudiane, Regazzi Romano, 2016/12. Biochimica et Biophysica Acta (BBA) - Molecular and Cell Biology of Lipids, 1861 (12) pp. 2121-2129. Peer-reviewed.
 
Exosome-like vesicles released from lipid-induced insulin-resistant muscles modulate gene expression and proliferation of beta recipient cells in mice.
Jalabert A., Vial G., Guay C., Wiklander O.P., Nordin J.Z., Aswad H., Forterre A., Meugnier E., Pesenti S., Regazzi R. et al., 2016/05. Diabetologia, 59 (5) pp. 1049-1058. Peer-reviewed.
Role of microRNAs in the age-associated decline of pancreatic beta cell function in rat islets.
Tugay K., Guay C., Marques A.C., Allagnat F., Locke J.M., Harries L.W., Rutter G.A., Regazzi R., 2016. Diabetologia, 59 (1) pp. 161-169. Peer-reviewed.
Horizontal transfer of exosomal microRNAs transduce apoptotic signals between pancreatic beta-cells.
Guay C., Menoud V., Rome S., Regazzi R., 2015. Cell Communication and Signaling, 13 p. 17. Peer-reviewed.
MicroRNAs and the functional β cell mass: For better or worse.
Guay C., Regazzi R., 2015. Diabetes and Metabolism, 41 (5) pp. 369-377. Peer-reviewed.
Postnatal β-cell maturation is associated with islet-specific microRNA changes induced by nutrient shifts at weaning.
Jacovetti C., Matkovich S.J., Rodriguez-Trejo A., Guay C., Regazzi R., 2015. Nature Communications, 6 p. 8084. Peer-reviewed.
Role of islet microRNAs in diabetes: which model for which question?
Guay C., Regazzi R., 2015. Diabetologia, 58 (3) pp. 456-463. Peer-reviewed.
Circulating microRNAs as novel biomarkers for diabetes mellitus.
Guay C., Regazzi R., 2013. Nature Reviews. Endocrinology, 9 (9) pp. 513-521. Peer-reviewed.
Identification of particular groups of microRNAs that positively or negatively impact on beta cell function in obese models of type 2 diabetes.
Nesca V., Guay C., Jacovetti C., Menoud V., Peyot M.L., Laybutt D.R., Prentki M., Regazzi R., 2013. Diabetologia, 56 (10) pp. 2203-2212.
The GTPase Rab37 Participates in the Control of Insulin Exocytosis.
Ljubicic S., Bezzi P., Brajkovic S., Nesca V., Guay C., Ohbayashi N., Fukuda M., Abderrhamani A., Regazzi R., 2013. Plos One, 8 (6) pp. e68255. Peer-reviewed.
Emerging roles of non-coding RNAs in pancreatic β-cell function and dysfunction.
Guay C., Jacovetti C., Nesca V., Motterle A., Tugay K., Regazzi R., 2012. Diabetes, Obesity and Metabolism, 14 (Suppl 3) pp. 12-21. Peer-reviewed.
Diabetes mellitus, a microRNA-related disease?
Guay C., Roggli E., Nesca V., Jacovetti C., Regazzi R., 2011. Translational Research, 157 (4) pp. 253-264.
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