Leptin signalling in pancreatic islets and clonal insulin-secreting cells
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Publication date
1999-01-01
Authors
Morton, N.M.
Emilsson, V.
Groot, R.P. de
Pallett, A.L.
Cawthorne, M.A.
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Article
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Abstract
Leptin is a cytokine secreted from adipose tissue at a
rate commensurate with the size of the body's fat
stores. In addition to its anorectic and thermogenic
central actions, leptin is known to act on peripheral
tissues, including the pancreatic ß-cell where it
inhibits insulin secretion and reduces insulin
transcript levels. However, the role of leptin
signalling through its full-length receptor, OB-Rb,
in the ß-cell remains unclear. In the present study,
we show that leptin activates a signal transducer and
activator of transcription (STAT)3 signalling mechanism
in pancreatic islets and in a rat model of the
pancreatic ß-cell, RINm5F. Leptin induced DNA
binding to a STAT consensus oligonucleotide and
resulted in transcriptional activation from STAT
reporter constructs in a manner consistent with
STAT3 activation. Western blot analysis confirmed
activation of STAT3 in RINm5F and isolated rat
islets. Conditions that mimic increased metabolic
activity resulted in attenuation of leptin-mediated
STAT DNA binding but had no significant eVect
on STAT3 tyrosine phosphorylation in RINm5F
cells. In addition, leptin activated the mitogen
activated protein (MAP) kinase pathway in
RINm5F cells. The present study provides a
framework for OB-Rb signalling mechanisms in the
programming of the ß-cell by leptin and suggests
that increased metabolic activity may modulate this
function.