Search Results
Centre for Neuroendocrinology and Department of Anatomy, Maurice Wilkins Centre for Molecular Biodiscovery, University of Otago, PO Box 913, Dunedin 9054, New Zealand
Search for other papers by David R Grattan in
Google Scholar
PubMed
. (1993) , Sorenson & Stout (1995) and Brelje et al . (2004) Expansion of beta cells in mother to increase insulin production, to prevent gestational diabetes Prolactin stimulates insulin expression, secretion and beta cell proliferation Karnik
Search for other papers by Young Hoon Son in
Google Scholar
PubMed
Search for other papers by Seok-Jin Lee in
Google Scholar
PubMed
Search for other papers by Ki-Baek Lee in
Google Scholar
PubMed
Search for other papers by Jin-Haeng Lee in
Google Scholar
PubMed
Department of Biochemistry and Molecular Biology, Institute of Human–Environment Interface Biology, Department of Rehabilitation Medicine, Seoul National University College of Medicine, 103 Daehak‐ro, Jongno‐Gu, Seoul 110‐799, Korea
Search for other papers by Eui Man Jeong in
Google Scholar
PubMed
Search for other papers by Sun Gun Chung in
Google Scholar
PubMed
Search for other papers by Sang-Chul Park in
Google Scholar
PubMed
Department of Biochemistry and Molecular Biology, Institute of Human–Environment Interface Biology, Department of Rehabilitation Medicine, Seoul National University College of Medicine, 103 Daehak‐ro, Jongno‐Gu, Seoul 110‐799, Korea
Search for other papers by In-Gyu Kim in
Google Scholar
PubMed
responsible for the pathogenesis of various diseases, including lipodystrophy, atherosclerosis, diabetes, pulmonary fibrosis, and cancer. However, the role of CAV1 in muscle is relatively unstudied. Although the mechanisms of signal-dependent regulation in the
Search for other papers by Farhana Naznin in
Google Scholar
PubMed
Division of Neurology, Department of Sports and Fitness, AMED-CREST, Respirology, Endocrinology and Metabolism, Department of Internal Medicine, Faculty of Medicine, University of Miyazaki, 5200 Kihara, Kiyotake, Miyazaki 889-1692, Japan
Search for other papers by Koji Toshinai in
Google Scholar
PubMed
Search for other papers by T M Zaved Waise in
Google Scholar
PubMed
Search for other papers by Cherl NamKoong in
Google Scholar
PubMed
Search for other papers by Abu Saleh Md Moin in
Google Scholar
PubMed
Search for other papers by Hideyuki Sakoda in
Google Scholar
PubMed
Division of Neurology, Department of Sports and Fitness, AMED-CREST, Respirology, Endocrinology and Metabolism, Department of Internal Medicine, Faculty of Medicine, University of Miyazaki, 5200 Kihara, Kiyotake, Miyazaki 889-1692, Japan
Search for other papers by Masamitsu Nakazato in
Google Scholar
PubMed
of obesity pathogenesis? Diabetes 62 2629 – 2634 . ( doi:10.2337/db12-1605 ) Toshinai K Date Y Murakami N Shimada M Mondal MS Shimbara T Guan JL Wang QP Funahashi H Sakurai T 2003 Ghrelin-induced food intake is
Search for other papers by David O'Regan in
Google Scholar
PubMed
Search for other papers by Christopher J Kenyon in
Google Scholar
PubMed
Search for other papers by Jonathan R Seckl in
Google Scholar
PubMed
Search for other papers by Megan C Holmes in
Google Scholar
PubMed
al . 2001 , Seckl 2004 ). A plethora of epidemiological studies have shown that low birth weight, a proposed surrogate for intrauterine adversity, is associated with hypertension ( Barker 1990 ), type 2 diabetes ( McCance et al . 1994 ), the
Institute for Molecular and Cellular Regulation, Department of General Medicine, Suntory Institute for Bioorganic Research, Department of Internal Medicine, Gunma University, Maebashi 371-8512, Japan
Search for other papers by Kunihisa Hamano in
Google Scholar
PubMed
Search for other papers by Yuko Nakagawa in
Google Scholar
PubMed
Search for other papers by Yoshiaki Ohtsu in
Google Scholar
PubMed
Search for other papers by Longfei Li in
Google Scholar
PubMed
Search for other papers by Johan Medina in
Google Scholar
PubMed
Search for other papers by Yuji Tanaka in
Google Scholar
PubMed
Search for other papers by Katsuyoshi Masuda in
Google Scholar
PubMed
Search for other papers by Mitsuhisa Komatsu in
Google Scholar
PubMed
Search for other papers by Itaru Kojima in
Google Scholar
PubMed
and facilitates metabolism in pancreatic β-cells . Journal of Diabetes Investigation 6 256 – 263 . ( doi:10.1111/jdi.12304 ) Kyriazis GA Soundarapandian MM Tyberg B 2012 Sweet taste receptor signaling in β cells mediates fructose
Search for other papers by Stuart A Lanham in
Google Scholar
PubMed
Search for other papers by Dominique Blache in
Google Scholar
PubMed
Search for other papers by Richard O C Oreffo in
Google Scholar
PubMed
Search for other papers by Abigail L Fowden in
Google Scholar
PubMed
Department of Biological and Medical Sciences, Oxford Brookes University, Oxford, UK
Search for other papers by Alison J Forhead in
Google Scholar
PubMed
positive and negative correlations observed between plasma insulin and concentrations of IGFI and IGFII, respectively ( Gluckman et al. 1987 ). Similarly, in a clinical case of transient neonatal diabetes mellitus where the infant was born with IUGR and
Search for other papers by Saadia Basharat in
Google Scholar
PubMed
Search for other papers by Jennifer A Parker in
Google Scholar
PubMed
Search for other papers by Kevin G Murphy in
Google Scholar
PubMed
Search for other papers by Stephen R Bloom in
Google Scholar
PubMed
Search for other papers by Julia C Buckingham in
Google Scholar
PubMed
Search for other papers by Christopher D John in
Google Scholar
PubMed
Evidence for a novel peripheral action of leptin as a metabolic signal to the adrenal gland: leptin inhibits cortisol release directly . Diabetes 46 1235 – 1238 . ( doi:10.2337/diab.46.7.1235 ) Carlson DE Chiu WC Fiedler SM Hoffman GE 2007
Search for other papers by Valentina Pampanini in
Google Scholar
PubMed
Search for other papers by Daniela Germani in
Google Scholar
PubMed
Search for other papers by Antonella Puglianiello in
Google Scholar
PubMed
Search for other papers by Jan-Bernd Stukenborg in
Google Scholar
PubMed
Search for other papers by Ahmed Reda in
Google Scholar
PubMed
Search for other papers by Iuliia Savchuk in
Google Scholar
PubMed
Search for other papers by Kristín Rós Kjartansdóttir in
Google Scholar
PubMed
Dipartimento Pediatrico Universitario Ospedaliero ‘Bambino Gesù’ Children’s Hospital – Tor Vergata University, Rome, Italy
Search for other papers by Stefano Cianfarani in
Google Scholar
PubMed
Search for other papers by Olle Söder in
Google Scholar
PubMed
Simmons R 2004 Hepatic insulin resistance precedes the development of diabetes in a model of intrauterine growth retardation . Diabetes 53 2617 – 2622 . ( doi:10.2337/diabetes.53.10.2617 ) Wigglesworth JS 1964 Experimental growth
Search for other papers by Nikolaos Nikolaou in
Google Scholar
PubMed
Department of Biological and Medical Sciences, Oxford Brookes University, Oxford, UK
Search for other papers by Anastasia Arvaniti in
Google Scholar
PubMed
Search for other papers by Nathan Appanna in
Google Scholar
PubMed
Search for other papers by Anna Sharp in
Google Scholar
PubMed
Search for other papers by Beverly A Hughes in
Google Scholar
PubMed
Search for other papers by Dena Digweed in
Google Scholar
PubMed
Search for other papers by Martin J Whitaker in
Google Scholar
PubMed
Search for other papers by Richard Ross in
Google Scholar
PubMed
NIHR Birmingham Biomedical Research Centre, University Hospitals Birmingham NHS Foundation Trust and University of Birmingham, Birmingham, UK
Search for other papers by Wiebke Arlt in
Google Scholar
PubMed
Search for other papers by Trevor M Penning in
Google Scholar
PubMed
Search for other papers by Karen Morris in
Google Scholar
PubMed
Search for other papers by Sherly George in
Google Scholar
PubMed
Search for other papers by Brian G Keevil in
Google Scholar
PubMed
Search for other papers by Leanne Hodson in
Google Scholar
PubMed
Department of Biological and Medical Sciences, Oxford Brookes University, Oxford, UK
Search for other papers by Laura L Gathercole in
Google Scholar
PubMed
Search for other papers by Jeremy W Tomlinson in
Google Scholar
PubMed
might lead to decreased CYP3A4 and further exacerbate the adverse effects of prescribed steroids through both CYP3A4 and AKR1D1 dependent mechanisms. AKR1D1 is down-regulated in patients with type 2 diabetes and we have recently shown a similar
Search for other papers by Md Nurul Islam in
Google Scholar
PubMed
Systems Life Sciences Laboratory, Department of Medical Life Systems, Faculty of Life and Medical Sciences, Doshisha University, Kyoto, Japan
Search for other papers by Yuichiro Mita in
Google Scholar
PubMed
Search for other papers by Keisuke Maruyama in
Google Scholar
PubMed
Department of Sports and Fitness, Faculty of Wellness, Shigakkan University, Aichi, Japan
Search for other papers by Ryota Tanida in
Google Scholar
PubMed
Search for other papers by Weidong Zhang in
Google Scholar
PubMed
Search for other papers by Hideyuki Sakoda in
Google Scholar
PubMed
CREST (Japan) Agency for Medical Research and Development (A-MED) 1-7-1 Otemachi, Tokyo, Japan
Search for other papers by Masamitsu Nakazato in
Google Scholar
PubMed
and energy homeostasis through two mechanisms: crosstalk between stomach and liver, and direct inhibition of peripheral and central GHSR by LEAP2. LEAP2 agonism represents a possible therapeutic target for obesity and diabetes, and LEAP2 antagonism for