[VAL12]HRAS DOWN-REGULATES GLUT2 IN BETA-CELLS OF TRANSGENIC MICE WITHOUT AFFECTING GLUCOSE-HOMEOSTASIS

被引：41

作者：

TAL, M

WU, YJ

LEISER, M

SURANA, M

LODISH, H

FLEISCHER, N

WEIR, G

EFRAT, S

机构：

[1] YESHIVA UNIV ALBERT EINSTEIN COLL MED,CTR DIABET RES & TRAINING,BRONX,NY 10461

[2] WHITEHEAD INST BIOMED RES,CAMBRIDGE,MA 02142

[3] JOSLIN DIABET CTR,BOSTON,MA 02215

[4] MIT,DEPT BIOL,CAMBRIDGE,MA 02139

[5] YESHIVA UNIV ALBERT EINSTEIN COLL MED,DEPT MED,BRONX,NY 10461

[6] YESHIVA UNIV ALBERT EINSTEIN COLL MED,DEPT MOLEC PHARMACOL,BRONX,NY 10461

来源：

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA | 1992年 / 89卷 / 13期

关键词：

D O I：

10.1073/pnas.89.13.5744

中图分类号：

O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];

学科分类号：

07 ; 0710 ; 09 ;

摘要：

Glucose-induced insulin release from pancreatic beta-cells depends on the beta-cell metabolism of glucose, which generates intracellular signals for secretion. The beta-cell glucose transporter isotype GLUT2 and the glucose phosphorylating enzyme glucokinase have both been implicated in coupling insulin secretion to extracellular glucose levels. Here we present evidence that a pronounced decrease in beta-cell GLUT2 has no immediate effect on glucose homeostasis. Analysis of transgenic mice overexpressing human [Val12]HRAS oncoprotein under control of the insulin promoter reveals a great reduction in plasma-membrane GLUT2 levels. These mice are nonetheless able to maintain normal fed and fasting plasma glucose and insulin levels for a period of several months. Insulin secretion studied in isolated islets and the perfused pancreas is characterized by a normal incremental response to increasing glucose concentrations. Glucose metabolism, as measured by glucose phosphorylation and oxidation in isolated islets, shows a normal dose dependence on extracellular glucose concentrations. These findings suggest that normal GLUT2 expression in beta-cells is not essential for glucose sensing. The transgenic mice provide an experimental system for studying the role of glucose phosphorylation in regulation of insulin release in the absence of GLUT2.

引用

页码：5744 / 5748

页数：5

共 23 条

[11] LIANG Y, 1992, IN PRESS DIABETES
[12] PERIODATE-LYSINE-PARAFORMALDEHYDE FIXATIVE - NEW FIXATIVE FOR IMMUNOELECTRON MICROSCOPY
MCLEAN, IW
NAKANE, PK
[J]. JOURNAL OF HISTOCHEMISTRY & CYTOCHEMISTRY, 1974, 22 (12) : 1077 - 1083
[13] MEGLASSON M D, 1986, Diabetes Metabolism Reviews, V2, P163
[14] GLUCOSE-TRANSPORT BY RADIATION-INDUCED INSULINOMA AND CLONAL PANCREATIC BETA-CELLS
MEGLASSON, MD
MANNING, CD
NAJAFI, H
MATSCHINSKY, FM
[J]. DIABETES, 1986, 35 (12) : 1340 - 1344
[15] REDUCED BETA-CELL GLUCOSE TRANSPORTER IN NEW ONSET DIABETIC BB RATS
ORCI, L
UNGER, RH
RAVAZZOLA, M
OGAWA, A
KOMIYA, I
BAETENS, D
LODISH, HF
THORENS, B
[J]. JOURNAL OF CLINICAL INVESTIGATION, 1990, 86 (05) : 1615 - 1622
[16] GLUCOSE TRANSPORTER ISOTYPES SWITCH IN T-ANTIGEN-TRANSFORMED PANCREATIC BETA-CELLS GROWING IN CULTURE AND IN MICE
TAL, M
THORENS, B
SURANA, M
FLEISCHER, N
LODISH, HF
HANAHAN, D
EFRAT, S
[J]. MOLECULAR AND CELLULAR BIOLOGY, 1992, 12 (01) : 422 - 432
[17] MOLECULAR PHYSIOLOGY OF GLUCOSE TRANSPORTERS
THORENS, B
CHARRON, MJ
LODISH, HF
[J]. DIABETES CARE, 1990, 13 (03) : 209 - 218
[18] CLONING AND FUNCTIONAL EXPRESSION IN BACTERIA OF A NOVEL GLUCOSE TRANSPORTER PRESENT IN LIVER, INTESTINE, KIDNEY, AND BETA-PANCREATIC ISLET CELLS
THORENS, B
SARKAR, HK
KABACK, HR
LODISH, HF
[J]. CELL, 1988, 55 (02) : 281 - 290
[19] THORENS B, 1990, AM J PHYSIOL, V259, pC286
[20] REDUCED EXPRESSION OF THE LIVER BETA-CELL GLUCOSE TRANSPORTER ISOFORM IN GLUCOSE-INSENSITIVE PANCREATIC BETA-CELLS OF DIABETIC RATS
THORENS, B
WEIR, GC
LEAHY, JL
LODISH, HF
BONNERWEIR, S
[J]. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 1990, 87 (17) : 6492 - 6496

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