Julia Zeidler scite author profile

The leptin receptor (LEPR) is a class I cytokine receptor signalling via both the janus kinase/signal transducer and activator of transcription (JAK/STAT) and the MAP kinase pathways. In addition, leptin has been shown previously to activate AMP-activated kinase (AMPK) in skeletal muscle. To enable a detailed analysis of leptin signalling in pancreatic beta cells, LEPR point mutants with single or combined exchanges of the three intracellular tyrosines were expressed in HIT-T15 insulinoma cells. Western blots with activation state-specific antibodies recognizing specific signalling molecules revealed that the wild-type receptor activated STAT1, STAT3, STAT5 and ERK1/2 but failed to alter the phosphorylation of AMPK. Each of the three intracellular tyrosine residues in LEPR exhibited different signalling capacities: Tyr985 was necessary and sufficient for leptin-induced activation of ERK1/2; Tyr1077 induced tyrosyl phosphorylation of STAT5; and Tyr1138 was capable of activating STAT1, STAT3 and STAT5. Consistent results were obtained in reporter gene assays with STAT3 or STAT5-responsive promoter constructs, respectively. Furthermore, the sequence motifs surrounding the three tyrosine residues are conserved in LEPR from mammals, birds and in a LEPR-like cytokine receptor from pufferfish. Mutational analysis of the box3 motif around Tyr1138 identified Met1139 and Gln1141 as important determinants that define specificity towards the different STAT factors. These data indicate that all three conserved tyrosines are involved in LEPR function and define the pleiotropy of signal transduction via STAT1/3, STAT5 or ERK kinases. Activation and inhibition of AMPK appears to require additional components of the signalling pathways that are not present in beta cells.

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Pleiotropy of leptin receptor signalling is defined by distinct roles of the intracellular tyrosines

Hekerman

Zeidler

Bamberg-Lemper

et al. 2004

The FEBS Journal

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Leptin is an adipocyte-secreted hormone that informs the brain about the status of the body's energy stores. It regulates energy homeostasis through effects on satiety and energy expenditure and deficiencies of leptin or the leptin receptor in humans or rodents result in severe obesity, infertility, impaired growth and insulin resistance [1]. In db ⁄ db mice that lack the signalling active, long splice variant of the leptin receptor (LEPRb), this syndrome was largely corrected by neuron-specific transgenic complementation of LEPRb deficiency [2], supporting the notion that leptin acts predominantly on central pathways. However, a number of peripheral The leptin receptor (LEPR) is a class I cytokine receptor signalling via both the janus kinase ⁄ signal transducer and activator of transcription (JAK ⁄ STAT) and the MAP kinase pathways. In addition, leptin has been shown previously to activate AMP-activated kinase (AMPK) in skeletal muscle. To enable a detailed analysis of leptin signalling in pancreatic beta cells, LEPR point mutants with single or combined exchanges of the three intracellular tyrosines were expressed in HIT-T15 insulinoma cells. Western blots with activation state-specific antibodies recognizing specific signalling molecules revealed that the wild-type receptor activated STAT1, STAT3, STAT5 and ERK1 ⁄ 2 but failed to alter the phosphorylation of AMPK. Each of the three intracellular tyrosine residues in LEPR exhibited different signalling capacities: Tyr985 was necessary and sufficient for leptin-induced activation of ERK1 ⁄ 2; Tyr1077 induced tyrosyl phosphorylation of STAT5; and Tyr1138 was capable of activating STAT1, STAT3 and STAT5. Consistent results were obtained in reporter gene assays with STAT3 or STAT5-responsive promoter constructs, respectively. Furthermore, the sequence motifs surrounding the three tyrosine residues are conserved in LEPR from mammals, birds and in a LEPR-like cytokine receptor from pufferfish. Mutational analysis of the box3 motif around Tyr1138 identified Met1139 and Gln1141 as important determinants that define specificity towards the different STAT factors. These data indicate that all three conserved tyrosines are involved in LEPR function and define the pleiotropy of signal transduction via STAT1 ⁄ 3, STAT5 or ERK kinases. Activation and inhibition of AMPK appears to require additional components of the signalling pathways that are not present in beta cells.Abbreviations AMPK, AMP-activated kinase; ERK, extracellular signal-regulated kinase; GH, growth hormone; JAK, janus kinase; LEPR, leptin receptor; SH2, src-homology 2; SOCS3, suppressor of cytokine signalling 3; STAT, signal transducer and activator of transcription.

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Leptin induces inflammation-related genes in RINm5F insulinoma cells

et al. 2007

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Background: Leptin acts not only on hypothalamic centers to control food intake but has additional functions in peripheral tissues, e.g. inhibition of insulin secretion from pancreatic islets. The leptin receptor (LEPRb) is a class I cytokine receptor that mediates activation of STAT transcription factors. In this study, we characterise the regulation of inflammation-related genes by leptin in insulinoma cells and compare the effect of transcriptional regulation by leptin with that of other cytokines.

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Mechanism of attenuation of leptin signaling under chronic ligand stimulation

et al. 2010

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BackgroundLeptin is an adipocyte-derived hormone that acts via its hypothalamic receptor (LEPRb) to regulate energy balance. A downstream effect essential for the weight-regulatory action of leptin is the phosphorylation and activation of the latent transcription factor STAT3 by LEPRb-associated Janus kinases (JAKs). Obesity is typically associated with chronically elevated leptin levels and a decreased ability of LEPRb to activate intracellular signal transduction pathways (leptin resistance). Here we have studied the roles of the intracellular tyrosine residues in the negative feedback regulation of LEPRb-signaling under chronic leptin stimulation.ResultsMutational analysis showed that the presence of either Tyr985 and Tyr1077 in the intracellular domain of LEPRb was sufficient for the attenuation of STAT3 phosphorylation, whereas mutation of both tyrosines rendered LEPRb resistant to feedback regulation. Overexpression and RNA interference-mediated downregulation of suppressor of cytokine signaling 3 (SOCS3) revealed that both Tyr985 and Tyr1077 were capable of supporting the negative modulatory effect of SOCS3 in reporter gene assays. In contrast, the inhibitory effect of SOCS1 was enhanced by the presence of Tyr985 but not Tyr1077. Finally, the reduction of the STAT-phosphorylating activity of the LEPRb complex after 2 h of leptin stimulation was not accompanied by the dephosphorylation or degradation of LEPRb or the receptor-associated JAK molecule, but depended on Tyr985 and/or Tyr1077.ConclusionsBoth Tyr985 and Tyr1077 contribute to the negative regulation of LEPRb signaling. The inhibitory effects of SOCS1 and SOCS3 differ in the dependence on the tyrosine residues in the intracellular domain of LEPRb.

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Leptin receptor desensitization does not depend on SOCS 3

Knobelspies¹,

Zeidler²,

Bamberg-Lemper³

et al. 2005

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Julia Zeidler

Pleiotropy of leptin receptor signalling is defined by distinct roles of the intracellular tyrosines

Pleiotropy of leptin receptor signalling is defined by distinct roles of the intracellular tyrosines

Leptin induces inflammation-related genes in RINm5F insulinoma cells

Mechanism of attenuation of leptin signaling under chronic ligand stimulation

Leptin receptor desensitization does not depend on SOCS 3

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