Literature DB >> 34193595

New Aspects of Diabetes Research and Therapeutic Development.

Leslie S Satin1, Scott A Soleimanpour2, Emily M Walker1.   

Abstract

Both type 1 and type 2 diabetes mellitus are advancing at exponential rates, placing significant burdens on health care networks worldwide. Although traditional pharmacologic therapies such as insulin and oral antidiabetic stalwarts like metformin and the sulfonylureas continue to be used, newer drugs are now on the market targeting novel blood glucose-lowering pathways. Furthermore, exciting new developments in the understanding of beta cell and islet biology are driving the potential for treatments targeting incretin action, islet transplantation with new methods for immunologic protection, and the generation of functional beta cells from stem cells. Here we discuss the mechanistic details underlying past, present, and future diabetes therapies and evaluate their potential to treat and possibly reverse type 1 and 2 diabetes in humans. SIGNIFICANCE STATEMENT: Diabetes mellitus has reached epidemic proportions in the developed and developing world alike. As the last several years have seen many new developments in the field, a new and up to date review of these advances and their careful evaluation will help both clinical and research diabetologists to better understand where the field is currently heading. U.S. Government work not protected by U.S. copyright.

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Year:  2021        PMID: 34193595      PMCID: PMC8274312          DOI: 10.1124/pharmrev.120.000160

Source DB:  PubMed          Journal:  Pharmacol Rev        ISSN: 0031-6997            Impact factor:   18.923


  201 in total

Review 1.  The phantom of lactic acidosis due to metformin in patients with diabetes.

Authors:  Robert I Misbin
Journal:  Diabetes Care       Date:  2004-07       Impact factor: 19.112

2.  Salsalate has no effect on insulin secretion but decreases insulin clearance: a randomized, placebo-controlled trial in subjects without diabetes.

Authors:  A Penesova; J Koska; E Ortega; J C Bunt; C Bogardus; B de Courten
Journal:  Diabetes Obes Metab       Date:  2015-03-12       Impact factor: 6.577

3.  Metformin inhibits hepatic gluconeogenesis in mice independently of the LKB1/AMPK pathway via a decrease in hepatic energy state.

Authors:  Marc Foretz; Sophie Hébrard; Jocelyne Leclerc; Elham Zarrinpashneh; Maud Soty; Gilles Mithieux; Kei Sakamoto; Fabrizio Andreelli; Benoit Viollet
Journal:  J Clin Invest       Date:  2010-06-23       Impact factor: 14.808

4.  Discovery of Ipragliflozin (ASP1941): a novel C-glucoside with benzothiophene structure as a potent and selective sodium glucose co-transporter 2 (SGLT2) inhibitor for the treatment of type 2 diabetes mellitus.

Authors:  Masakazu Imamura; Keita Nakanishi; Takayuki Suzuki; Kazuhiro Ikegai; Ryota Shiraki; Takashi Ogiyama; Takeshi Murakami; Eiji Kurosaki; Atsushi Noda; Yoshinori Kobayashi; Masayuki Yokota; Tomokazu Koide; Kazuhiro Kosakai; Yasufumi Ohkura; Makoto Takeuchi; Hiroshi Tomiyama; Mitsuaki Ohta
Journal:  Bioorg Med Chem       Date:  2012-03-29       Impact factor: 3.641

5.  Identification and functional characterization of the peroxisomal proliferator response element in rat GLUT2 promoter.

Authors:  H I Kim; J W Kim; S H Kim; J Y Cha; K S Kim; Y H Ahn
Journal:  Diabetes       Date:  2000-09       Impact factor: 9.461

6.  Metformin temporal and localized effects on gut glucose metabolism assessed using 18F-FDG PET in mice.

Authors:  Michela Massollo; Cecilia Marini; Massimo Brignone; Laura Emionite; Barbara Salani; Mattia Riondato; Selene Capitanio; Francesco Fiz; Alessia Democrito; Adriana Amaro; Silvia Morbelli; Michele Piana; Davide Maggi; Michele Cilli; Ulrich Pfeffer; Gianmario Sambuceti
Journal:  J Nucl Med       Date:  2013-01-03       Impact factor: 10.057

7.  Interindividual Heterogeneity of SGLT2 Expression and Function in Human Pancreatic Islets.

Authors:  Chiara Saponaro; Markus Mühlemann; Ana Acosta-Montalvo; Anthony Piron; Valery Gmyr; Nathalie Delalleau; Ericka Moerman; Julien Thévenet; Gianni Pasquetti; Anais Coddeville; Miriam Cnop; Julie Kerr-Conte; Bart Staels; François Pattou; Caroline Bonner
Journal:  Diabetes       Date:  2020-01-02       Impact factor: 9.461

8.  PDGF signalling controls age-dependent proliferation in pancreatic β-cells.

Authors:  Hainan Chen; Xueying Gu; Yinghua Liu; Jing Wang; Stacey E Wirt; Rita Bottino; Hubert Schorle; Julien Sage; Seung K Kim
Journal:  Nature       Date:  2011-10-12       Impact factor: 49.962

9.  PDL1 is expressed in the islets of people with type 1 diabetes and is up-regulated by interferons-α and-γ via IRF1 induction.

Authors:  Maikel L Colli; Jessica L E Hill; Laura Marroquí; Jessica Chaffey; Reinaldo S Dos Santos; Pia Leete; Alexandra Coomans de Brachène; Flavia M M Paula; Anne Op de Beeck; Angela Castela; Lorella Marselli; Lars Krogvold; Knut Dahl-Jorgensen; Piero Marchetti; Noel G Morgan; Sarah J Richardson; Décio L Eizirik
Journal:  EBioMedicine       Date:  2018-09-27       Impact factor: 8.143

Review 10.  Thiazolidinediones: the Forgotten Diabetes Medications.

Authors:  Harold E Lebovitz
Journal:  Curr Diab Rep       Date:  2019-11-27       Impact factor: 4.810
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  2 in total

1.  Akt-GSK3β-mPTP pathway regulates the mitochondrial dysfunction contributing to odontoblasts apoptosis induced by glucose oxidative stress.

Authors:  Danni Wu; Liya Yan; Chuchu Zheng; Xuekun Ren; Yihuai Pan; Shengbin Huang; Lijun Pan; Zongli Li
Journal:  Cell Death Discov       Date:  2022-04-05

2.  4-OI Protects MIN6 Cells from Oxidative Stress Injury by Reducing LDHA-Mediated ROS Generation.

Authors:  Jianmin Wu; Xingshi Gu; Juan Zhang; Ze Mi; Zhenhu He; Yuqian Dong; Wu Ge; Kedar Ghimire; Pengfei Rong; Wei Wang; Xiaoqian Ma
Journal:  Biomolecules       Date:  2022-09-04
  2 in total

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