Cécile Jacovetti

Publications | Mémoires et thèses

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20 publications

2022 | 2021 | 2020 | 2018 | 2017 | 2016 | 2015 | 2013 | 2012 | 2011 |
2022
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.
[URN][DOI][Pmid][serval:BIB_CD2CB954E2CD]
Lessons from neonatal β-cell epigenomic for diabetes prevention and treatment.
Abderrahmani A., Jacovetti C., Regazzi R., 2022/06. Trends in endocrinology and metabolism, 33 (6) pp. 378-389. Peer-reviewed.
[URN][DOI][WoS][Pmid][serval:BIB_4721E478D0A0]
Mechanisms Underlying the Expansion and Functional Maturation of β-Cells in Newborns: Impact of the Nutritional Environment.
Jacovetti C., Regazzi R., 2022/02/14. International journal of molecular sciences, 23 (4) p. 2096. Peer-reviewed.
[URN][DOI][WoS][Pmid][serval:BIB_1B32BE187F04]
2021
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.
[URN][DOI][Pmid][serval:BIB_8A32EB66F140]
Emerging Classes of Small Non-Coding RNAs With Potential Implications in Diabetes and Associated Metabolic Disorders.
Jacovetti C., Bayazit M.B., Regazzi R., 2021. Frontiers in endocrinology, 12 p. 670719. Peer-reviewed.
[URN][DOI][WoS][Pmid][serval:BIB_CD0A1EFB0837]
The Map3k12 (Dlk)/JNK3 signaling pathway is required for pancreatic beta-cell proliferation during postnatal development.
Tenenbaum M., Plaisance V., Boutry R., Pawlowski V., Jacovetti C., Sanchez-Parra C., Ezanno H., Bourry J., Beeler N., Pasquetti G. et al., 2021/01. Cellular and molecular life sciences, 78 (1) pp. 287-298. Peer-reviewed.
[URN][DOI][WoS][Pmid][serval:BIB_2DF49344E30F]
2020
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.
[URN][DOI][WoS][Pmid][serval:BIB_7E2628099A04]
2018
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.
[URN][DOI][WoS][Pmid][serval:BIB_FD9DD41BF15E]
2017
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.
[URN][DOI][WoS][Pmid][serval:BIB_2B9A070B69A2]
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.
[URN][DOI][WoS][Pmid][serval:BIB_5F3CDB100E39]
2016
Insulin secretion in health and disease: nutrients dictate the pace.
Regazzi R., Rodriguez-Trejo A., Jacovetti C., 2016. Proceedings of the Nutrition Society, 75 (1) pp. 19-29. Peer-reviewed.
[URN][DOI][Pmid][serval:BIB_6D0E413073B2]
2015
 
Autocrine Action of IGF2 Regulates Adult β-Cell Mass and Function.
Modi H., Jacovetti C., Tarussio D., Metref S., Madsen O.D., Zhang F.P., Rantakari P., Poutanen M., Nef S., Gorman T. et al., 2015. Diabetes, 64 (12) pp. 4148-4157. Peer-reviewed.
[DOI][WoS][Pmid][serval:BIB_1ECFC1603DDF]
Contribution of Intronic miR-338-3p and Its Hosting Gene AATK to Compensatory β-Cell Mass Expansion.
Jacovetti C., Jimenez V., Ayuso E., Laybutt R., Peyot M.L., Prentki M., Bosch F., Regazzi R., 2015. Molecular Endocrinology, 29 (5) pp. 693-702. Peer-reviewed.
[URN][DOI][WoS][Pmid][serval:BIB_912547987857]
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.
[URN][DOI][WoS][Pmid][serval:BIB_9E8335A1E780]
2013
Compensatory β-cell mass expansion: a big role for a tiny actor.
Jacovetti C., Regazzi R., 2013. Cell Cycle, 12 (2) pp. 197-198.
[URN][DOI][WoS][Pmid][serval:BIB_12A9DD1CB270]
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.
[URN][DOI][WoS][Pmid][serval:BIB_0B2D0383973F]
2012
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.
[URN][DOI][WoS][Pmid][serval:BIB_13FEA990DF50]
MicroRNAs contribute to compensatory β cell expansion during pregnancy and obesity.
Jacovetti C., Abderrahmani A., Parnaud G., Jonas J.C., Peyot M.L., Cornu M., Laybutt R., Meugnier E., Rome S., Thorens B. et al., 2012. Journal of Clinical Investigation, 122 (10) pp. 3541-3551. Peer-reviewed.
[URN][DOI][WoS][Pmid][serval:BIB_3EFD603B48DE]
2011
Diabetes mellitus, a microRNA-related disease?
Guay C., Roggli E., Nesca V., Jacovetti C., Regazzi R., 2011. Translational Research, 157 (4) pp. 253-264.
[URN][DOI][WoS][Pmid][serval:BIB_700D4132037B]
 
Rôle des microARNs dans les mécanismes compensatoires de la masse des cellules β. [Role of microRNAs in compensatory mechanisms of beta cell mass.]
Jacovetti C., Abderrahmani A., Regazzi R., 2011. pp. A6 dans SFD 2011, Congrès de la Société Francophone du Diabète, Diabetes and Metabolism. Peer-reviewed.
[DOI][WoS][serval:BIB_35CAA0F65529]
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