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133 results on '"Argetsinger, Lawrence S"'

4. The nucleolar δ isoform of adapter protein SH2B1 enhances morphological complexity and function of cultured neurons

Author

Cote, Jessica L., primary, Vander, Paul B., additional, Ellis, Michael, additional, Cline, Joel M., additional, Svezhova, Nadezhda, additional, Doche, Michael E., additional, Maures, Travis J., additional, Choudhury, Tahrim A., additional, Kong, Seongbae, additional, Klaft, Olivia G. J., additional, Joe, Ray M., additional, Argetsinger, Lawrence S., additional, and Carter-Su, Christin, additional

Published
2022
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6. Human SH2B1 mutations are associated with maladaptive behaviors and obesity

Author

Doche, Michael E., Bochukova, Elena G., Su, Hsiao-Wen, Pearce, Laura R., Keogh, Julia M., Henning, Elana, Cline, Joel M., Dale, Anne, Cheetham, Tim, Barroso, Ines, Argetsinger, Lawrence S., O'Rahilly, Stephen, Rui, Liangyou, Carter-Su, Christin, and Farooqi, I. Sadaf

Subjects
Gene mutations -- Identification and classification, Obesity -- Genetic aspects -- Care and treatment, Leptin -- Health aspects, Insulin -- Dosage and administration, Cellular signal transduction -- Genetic aspects, Health care industry
Abstract

Src homology 2 B adapter protein 1 (SH2B1) modulates signaling by a variety of ligands that bind to receptor tyrosine kinases or JAK-associated cytokine receptors, including leptin, insulin, growth hormone (GH), and nerve growth factor (NGF). Targeted deletion of SH2B1 in mice results in increased food intake, obesity, and insulin resistance, with an intermediate phenotype seen in heterozygous null mice on a high-fat diet. We identified SH2B1 loss-of-function mutations in a large cohort of patients with severe early-onset obesity. Mutation carriers exhibited hyperphagia, childhood-onset obesity, disproportionate insulin resistance, and reduced final height as adults. Unexpectedly, mutation carriers exhibited a spectrum of behavioral abnormalities that were not reported in controls, including social isolation and aggression. We conclude that SH2B1 plays a critical role in the control of human food intake and body weight and is implicated in maladaptive human behavior., Introduction Leptin is a 16-kDa circulating hormone that regulates energy homeostasis via hypothalamic neurons expressing the leptin receptor (LEPR) (1). Congenital deficiency of leptin and its receptor results in severe [...]

Published
2012
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8. Capillary electrophoresis and fluorescence anisotropy for quantitative analysis of peptide--protein interactions using JAK2 and SH2.B[beta] as a model system

Author

Yang, Peilin, Whelan, Rebecca J., Jameson, Emily E., Kurzer, Jason H., Argetsinger, Lawrence S., Carter-Su, Christin, Kabir, Abuzar, Malik, Abuzar, and Kennedy, Robert T.

Subjects
Electrophoresis -- Research, Chemistry, Analytic -- Research, Anisotropy -- Research, Proteins -- Research, Chemistry
Abstract

Fluorescence anisotropy capillary electrophoresis (FACE) and affinity probe capillary electrophoresis (APCE) with laser-induced fluorescence detection were evaluated for analysis of peptide--protein interactions with rapid binding kinetics. The Src homology 2 domain of protein SH2-B[beta] (SH2-B[beta] (525-670)) and a tyrosine-phosphorylated peptide corresponding to the binding sequence of JAK2 were used as a model system. For peptide labeled with fluorescein, the [K.sub.d] = 82 [+ or -] 7 nM as measured by fluorescence anisotropy (FA). APCE assays had a limit of detection (LOD) of 100 nM or 12 amol injected for SH2-B[beta] (525-670). The separation time of 4 s, achieved using an electric field of 2860 V/cm on 7-cm-long capillaries, was on the same time scale as complex dissociation allowing [K.sub.d] (101 [+ or -] 12 nM in good agreement with FA measurements) and dissociation rate ([k.sub.off] = 0.95 [+ or -] 0.02 [s.sup.-1] corresponding to a half-life of 0.73 s) to be determined. This measurement represents a 30-fold higher rate of complex dissociation than what had previously been measurable by nonequilibrium CE analysis of equilibrium mixtures. Using FACE, the protein was detected with an LOD of 300 nM or 7.5 fmol injected. FACE was not used for determining [K.sub.d] or [k.sub.off]; however, this method provided better separation resolution for multiple forms of the protein than APCE. Both methods were found suitable for analysis of cell lysate. These results demonstrate that FACE and APCE may be useful complements to existing techniques for exploring binding interactions with rapid kinetics.

Published
2005

13. Deletion of the Brain-Specific α and δ Isoforms of Adapter Protein SH2B1 Protects Mice From Obesity

Author

Cote, Jessica L., primary, Argetsinger, Lawrence S., primary, Flores, Anabel, primary, Rupp, Alan C., primary, Cline, Joel M., primary, DeSantis, Lauren C., primary, Bedard, Alexander H., primary, Bagchi, Devika P., primary, Vander, Paul B., primary, Cacciaglia, Abrielle M., primary, Clutter, Erik S., primary, Chandrashekar, Gowri, primary, MacDougald, Ormond A., primary, Jr, Martin G. Myers,, primary, and Carter-Su, Christin, primary

Published
2020
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14. Deletion of the brain-specific α and δ isoforms of adapter protein SH2B1 protects mice from obesity

Author

Admin, Ada, primary, Cote, Jessica L., primary, Argetsinger, Lawrence S., primary, Flores, Anabel, primary, Rupp, Alan C., primary, Cline, Joel M., primary, DeSantis, Lauren C., primary, Bedard, Alexander H., primary, Bagchi, Devika P., primary, Vander, Paul B., primary, Cacciaglia, Abrielle M., primary, Clutter, Erik S., primary, Chandrashekar, Gowri, primary, MacDougald, Ormond A., primary, Jr, Martin G. Myers,, primary, and Carter-Su, Christin, primary

Published
2020
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17. Mechanism of signaling by growth hormone receptor

Author

Argetsinger, Lawrence S. and Carter-Su, Christin

Subjects
Hormone receptors -- Physiological aspects -- Research, Somatotropin -- Receptors, Cellular control mechanisms -- Research -- Physiological aspects, Biological sciences, Health, Physiological aspects, Research
Abstract

I. INTRODUCTION Growth hormone (GH) has long been known to be an important determinant of longitudinal bone growth as evidenced by the short stature of GH-deficient children, tall stature of [...]

Published
1996

19. Activation of JAK2 tyrosine kinase by prolactin receptors in Nb2 cells and mouse mammary gland explants

Author

Campbell, George S., Argetsinger, Lawrence S., Ihle, James N., Kelly, Paul A., Rillema, James A., and Carter-Su, Christin

Subjects
Prolactin -- Research, Mammary glands -- Research, Ligand binding (Biochemistry) -- Research, Science and technology
Abstract

An immunological analysis of Nb2 cells and mouse mammary gland explants suggests that JAK2, present in Nb2 cells and gland explants, is a prolactin (PRL) receptor-related tyrosine kinase which is induced upon ligand binding to PRL receptor. JAK2 acts as a signal mediator for other cytokine/hematopoietin receptors and indicates that these receptors share signaling pathways. JAK2 activation requires the formation of a receptor-JAK2 complex and a ligand-dependent event.

Published
1994

20. Identification of JAK2 as a growth hormone receptor-associated tyrosine kinase

Author

Argetsinger, Lawrence S., Campbell, George S., Xianjie Yang, Witthuhn, Bruce A., Silvennoinen, Olli, Ihle, James N., and Carter-Su, Christin

Subjects
Somatotropin -- Receptors, Ligands -- Analysis, Biological sciences
Abstract

The JAK2 is characterized as a signalling molecule of tyrosine kinase, which interacts with growth hormone receptor (GHR), forms a complex and exhibits ligand activation. The JAK2 sensitivity to GH forms the molecular basis for the rapid onset of tyrosyl phosphorylation of JAK2, when growth hormone (GH) is added. The activation of JAK2 is speculated to initiate GH signal transduction. The substrates for JAK2 results in the formation of GH-GHR-JAK2 complex, the induction of JAK2 tyrosine kinase activity and the tyrosyl phosphorylation of JAK2, GHR and other proteins.

Published
1993

22. Crucial Role of the SH2B1 PH Domain for the Control of Energy Balance

Author

Flores, Anabel, primary, Argetsinger, Lawrence S., additional, Stadler, Lukas K.J., additional, Malaga, Alvaro E., additional, Vander, Paul B., additional, DeSantis, Lauren C., additional, Joe, Ray M., additional, Cline, Joel M., additional, Keogh, Julia M., additional, Henning, Elana, additional, Barroso, Ines, additional, Mendes de Oliveira, Edson, additional, Chandrashekar, Gowri, additional, Clutter, Erik S., additional, Hu, Yixin, additional, Stuckey, Jeanne, additional, Farooqi, I. Sadaf, additional, Myers, Martin G., additional, and Carter-Su, Christin, additional

Published
2019
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23. Deletion of the Brain-Specific α and δ Isoforms of Adapter Protein SH2B1 Protects Mice From Obesity.

Author

Cote, Jessica L., Argetsinger, Lawrence S., Flores, Anabel, Rupp, Alan C., Cline, Joel M., DeSantis, Lauren C., Bedard, Alexander H., Bagchi, Devika P., Vander, Paul B., Cacciaglia, Abrielle M., Clutter, Erik S., Chandrashekar, Gowri, MacDougald, Ormond A., Myers Jr., Martin G., Carter-Su, Christin, and Myers, Martin G Jr

Subjects
*ADAPTOR proteins, *HORMONE receptors, *MICE, *WEIGHT gain, *HIGH-fat diet, *PROTEIN metabolism, *PROTEINS, *OBESITY, *ENERGY metabolism, *RESEARCH, *ANIMAL experimentation, *LEPTIN, *RESEARCH methodology, *MEDICAL cooperation, *EVALUATION research, *COMPARATIVE studies, *RESEARCH funding, *CARRIER proteins, *INSULIN resistance, BRAIN metabolism
Abstract

Mice lacking SH2B1 and humans with variants of SH2B1 display severe obesity and insulin resistance. SH2B1 is an adapter protein that is recruited to the receptors of multiple hormones and neurotrophic factors. Of the four known alternatively spliced SH2B1 isoforms, SH2B1β and SH2B1γ exhibit ubiquitous expression, whereas SH2B1α and SH2B1δ are essentially restricted to the brain. To understand the roles for SH2B1α and SH2B1δ in energy balance and glucose metabolism, we generated mice lacking these brain-specific isoforms (αδ knockout [αδKO] mice). αδKO mice exhibit decreased food intake, protection from weight gain on standard and high-fat diets, and an adiposity-dependent improvement in glucose homeostasis. SH2B1 has been suggested to impact energy balance via the modulation of leptin action. However, αδKO mice exhibit leptin sensitivity that is similar to that of wild-type mice by multiple measures. Thus, decreasing the abundance of SH2B1α and/or SH2B1δ relative to the other SH2B1 isoforms likely shifts energy balance toward a lean phenotype via a primarily leptin-independent mechanism. Our findings suggest that the different alternatively spliced isoforms of SH2B1 perform different functions in vivo. [ABSTRACT FROM AUTHOR]

Published
2021
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28. Functional characterization of obesity-associated variants involving the α and β isoforms of human SH2B1

Author

Pearce, Laura R, Joe, Ray, Doche, Michael E, Su, Hsiao-Wen, Keogh, Julia M, Henning, Elana, Argetsinger, Lawrence S, Bochukova, Elena G, Cline, Joel M, Garg, Sumedha, Saeed, Sadia, Shoelson, Steven, O'Rahilly, Stephen, Barroso, Inês, Rui, Liangyou, Farooqi, I Sadaf, Carter-Su, Christin, Keogh, Julia [0000-0002-0399-4114], Henning, Elana [0000-0002-0399-4114], O'Rahilly, Stephen [0000-0003-2199-4449], Barroso, Ines [0000-0001-5800-4520], Farooqi, Ismaa [0000-0001-7609-3504], and Apollo - University of Cambridge Repository

Subjects
Adult, Leptin, Male, Adolescent, Mutation, Missense, Alternative Splicing, Young Adult, Humans, Insulin, Protein Isoforms, Female, Obesity, Child, Adaptor Proteins, Signal Transducing, Signal Transduction
Abstract

We have previously reported rare variants in sarcoma (Src) homology 2 (SH2) B adaptor protein 1 (SH2B1) in individuals with obesity, insulin resistance, and maladaptive behavior. Here, we identify 4 additional SH2B1 variants by sequencing 500 individuals with severe early-onset obesity. SH2B1 has 4 alternatively spliced isoforms. One variant (T546A) lies within the N-terminal region common to all isoforms. As shown for past variants in this region, T546A impairs SH2B1β enhancement of nerve growth factor-induced neurite outgrowth, and the individual with the T546A variant exhibits mild developmental delay. The other 3 variants (A663V, V695M, and A723V) lie in the C-terminal tail of SH2B1α. SH2B1α variant carriers were hyperinsulinemic but did not exhibit the behavioral phenotype observed in individuals with SH2B1 variants that disrupt all isoforms. In in vitro assays, SH2B1α, like SH2B1β, enhances insulin- and leptin-induced insulin receptor substrate 2 (IRS2) phosphorylation and GH-induced cell motility. None of the variants affect SH2B1α enhancement of insulin- and leptin-induced IRS2 phosphorylation. However, T546A, A663V, and A723V all impair the ability of SH2B1α to enhance GH-induced cell motility. In contrast to SH2B1β, SH2B1α does not enhance nerve growth factor-induced neurite outgrowth. These studies suggest that genetic variants that disrupt isoforms other than SH2B1β may be functionally significant. Further studies are needed to understand the mechanism by which the individual isoforms regulate energy homeostasis and behavior.

Published
2014

29. Phosphorylation of the Unique C-Terminal Tail of the Alpha Isoform of the Scaffold Protein SH2B1 Controls the Ability of SH2B1 α To Enhance Nerve Growth Factor Function.

Author

Joe, Ray M., Flores, Anabel, Doche, Michael E., Cline, Joel M., Clutter, Erik S., Vander, Paul B., Riedel, Heimo, Argetsinger, Lawrence S., and Carter-Su, Christin

Subjects
PHOSPHORYLATION, C-terminal residues, SCAFFOLD proteins, NERVE growth factor, CYTOKINES, GENE expression
Abstract

The scaffold protein SH2B1, a major regulator of body weight, is recruited to the receptors of multiple cytokines and growth factors, including nerve growth factor (NGF). The β isoform, but not the α isoform, of SH2B1 greatly enhances NGF-dependent neurite outgrowth of PC12 cells. Here we asked how the unique C-terminal tails of the α and β isoforms modulate SH2B1 function. We compared the actions of SH2B1α and SH2B1β to those of the N-terminal 631 amino acids shared by both isoforms. In contrast to the β-tail, the α-tail inhibited the ability of SH2B1 to both cycle through the nucleus and enhance NGF-mediated neurite outgrowth, gene expression, phosphorylation of Akt and PLCγ and autophosphorylation of the NGF receptor TrkA. These functions were restored when Tyr753 in the α-tail was mutated to phenylalanine. We provide evidence that TrkA phosphorylates Tyr753 in SH2B1α, as well as tyrosines 439 and 55 in both SH2B1α and SH2B1β. Finally, co-expression of SH2B1α, but not SH2B1α Y753F, inhibited the ability of SH2B1β to enhance neurite outgrowth. These results suggest that the C-terminal tails of SH2B1 isoforms are key determinants of the cellular role of SH2B1. Furthermore, the function of SH2B1α is regulated by phosphorylation of the α-tail. [ABSTRACT FROM AUTHOR]

Published
2018
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31. Identification of JAK2 as a growth hormone receptor-associated tyrosine kinase

Author

Department of Physiology University of Michigan Medical School, Ann Arbor, Michigan 48109, USA, Department of Genetics Harvard Medical School, Boston, Massachusetts 02115, USA, Department of Biochemistry St. Jude Children's Research Hospital, Memphis, Tennessee 38105, USA, Argetsinger, Lawrence S., Campbell, George S., Yang, Xianjie, Witthuhn, Bruce A., Silvennoinen, Olli, Ihle, James N., Carter-Su, Christin, Department of Physiology University of Michigan Medical School, Ann Arbor, Michigan 48109, USA, Department of Genetics Harvard Medical School, Boston, Massachusetts 02115, USA, Department of Biochemistry St. Jude Children's Research Hospital, Memphis, Tennessee 38105, USA, Argetsinger, Lawrence S., Campbell, George S., Yang, Xianjie, Witthuhn, Bruce A., Silvennoinen, Olli, Ihle, James N., and Carter-Su, Christin

Abstract

Growth hormone receptor (GHR) forms a complex with a tyrosine kinase, suggesting involvement of a ligand-activated tyrosine kinase in intracellular signaling by growth hormone (GH). Here we identify JAK2, a nonreceptor tyrosine kinase, as a GHR-associated tyrosine kinase. Immunological approaches were used to establish GH-dependent complex formation between JAK2 and GHR, activation of JAK2 tyrosine kinase activity, and tyrosyl phosphorylation of both JAK2 and GHR. The JAK2-GHR and JAK2-erythropoietin receptor interactions described here and in the accompanying paper provide a molecular basis for involvement of tyrosyl phosphorylation in physiological responses to these ligands and suggest a shared signaling mechanism among members of the cytokine/hematopoietin receptor family.

Published
2006

32. Human SH2B1 mutations are associated with maladaptive behaviors and obesity

Author

Doche, Michael E., primary, Bochukova, Elena G., additional, Su, Hsiao-Wen, additional, Pearce, Laura R., additional, Keogh, Julia M., additional, Henning, Elana, additional, Cline, Joel M., additional, Saeed, Sadia, additional, Dale, Anne, additional, Cheetham, Tim, additional, Barroso, Inês, additional, Argetsinger, Lawrence S., additional, O’Rahilly, Stephen, additional, Rui, Liangyou, additional, Carter-Su, Christin, additional, and Farooqi, I. Sadaf, additional

Published
2013
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44. Signalling Pathway of GH.

Author

CARTER-SU, CHRISTIN, primary, KING, ANTHONY PJ, additional, ARGETSINGER, LAWRENCE S., additional, SMIT, LISA S., additional, VANDERKUUR, JOYCE, additional, and CAMPBELL, GEORGE S., additional

Published
1996
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46. Phosphorylation of the adaptor protein SH2B1b regulates its ability to enhance growth hormonedependent macrophage motility.

Author

Hsiao-Wen Su, Lanning, Nathan J., Morris, David L., Argetsinger, Lawrence S., Lumeng, Carey N., and Carter-Su, Christin

Subjects
ADAPTOR protein genetics, SOMATOTROPIN, PHOSPHORYLATION kinetics, GENETIC regulation, MACROPHAGE migration inhibitory factor, SERINE proteinases
Abstract

Previous studies have shown that growth hormone (GH) recruits the adapter protein SH2B1β to the GH-activated, GH receptorassociated tyrosine kinase JAK2, implicating SH2B1β in GH-dependent actin cytoskeleton remodeling, and suggesting that phosphorylation at serines 161 and 165 in SH2B1β releases SH2B1β from the plasma membrane. Here, we examined the role of SH2B1β in GH regulation of macrophage migration. We show that GH stimulates migration of cultured RAW264.7 macrophages, and primary cultures of peritoneal and bone marrow-derived macrophages. SH2B1β overexpression enhances, whereas SH2B1 knockdown inhibits, GH-dependent motility of RAW macrophages. At least two independent mechanisms regulate the SH2B1β-mediated changes in motility. In response to GH, tyrosines 439 and 494 in SH2B1β are phosphorylated. Mutating these tyrosines in SH2B1β decreases both basal and GH-stimulated macrophage migration. In addition, mutating the polybasic nuclear localization sequence (NLS) in SH2B1β or creating the phosphomimetics SH2B1β(S161E) or SH2B1β(S165E), all of which release SH2B1β from the plasma membrane, enhances macrophage motility. Conversely, SH2B1β(S161/165A) exhibits increased localization at the plasma membrane and decreased macrophage migration. Mutating the NLS or the nearby serine residues does not alter GH-dependent phosphorylation on tyrosines 439 and 494 in SH2B1β. Mutating tyrosines 439 and 494 does not affect localization of SH2B1β at the plasma membrane or movement of SH2B1β into focal adhesions. Taken together, these results suggest that SH2B1β enhances GH-stimulated macrophage motility via mechanisms involving phosphorylation of SH2B1β on tyrosines 439 and 494 and movement of SH2B1β out of the plasma membrane (e.g. as a result of phosphorylation of serines 161 and 165). [ABSTRACT FROM AUTHOR]

Published
2013
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50. Molecular Mechanisms of Growth Hormone Action

Author

Carter-Su, Christin, King, Anthony P. J., Smit, Lisa S., VanderKuur, Joyce A., Argetsinger, Lawrence S., Campbell, George S., and Huo, Wei-hua

Abstract

Growth hormone (GH) has long been known as a regulator of body growth and metabolism, both in humans and in domestic animals, yet the molecular basis for these responses to GH has remained elusive. Our laboratory has recently identified the tyrosine kinase JAK2 as an early signaling molecule for GH. Growth hormone rapidly promotes the association of GH receptor with JAK2, activates JAK2, and promotes the phosphorylation of both GH receptor and JAK2 on tyrosines. A number of signaling proteins that lie downstream of JAK2 have been identified based on their ability to bind to these phosphorylated tyrosines in GH receptor/JAK2 complexes and(or) be phosphorylated on tyrosines in response to GH (presumably by JAK2). These proteins include 1) the signal transducers and activators of transcription (Stat) 1, 3, and 5, which have been implicated as regulators of transcription of a variety of genes; 2) the insulin receptor substrate (IRS) 1, which may mediate some of the metabolic effects of GH; and 3) Shc proteins, which lie upstream of Ras and the mitogen-activated protein (MAP) kinases designated ERKs 1 and 2, proteins implicated in the regulation of cellular growth and(or) differentiation. These signaling molecules are thought to work in concert with each other and with other signaling molecules to elicit the diverse effects of GH. Growth hormone is now recognized as being one of a group of hormones and growth factors that regulate JAK kinases. To gain insight into how the extracellular influences might selectively regulate one particular JAK-coupled receptor, we examined the effect of a potent synthetic glucocorticoid, dexamethasone, on signaling by GH and other JAK2-coupled receptors. Dexamethasone was found to selectively decrease JAK2 phosphorylation in response to GH. This decrease was accompanied by a decrease in the number of GH receptors in the plasma membrane but not in the intact cell, suggesting dexamethasone causes a redistribution of GH receptors away from the plasma membrane. Using truncated and mutated GH receptors expressed in CHO cells, two regions of the receptor were implicated in the inhibitory effect of dexamethasone. Interestingly, these regions differed from the regions implicated in GH-induced internalization and phorbol ester-induced decreases in GH binding. The insight gained into GH signal transduction as a result of recognizing that JAK2 activation is an early, and most likely initiating, signaling molecule for GH has greatly advanced our understanding of the molecular basis for GH action during the past 3 yr. Further insight gained in the next few years into the actions of GH and the interactions of GH with other hormones, growth factors, and cytokines should enable us to understand better the molecular basis for the diverse actions of GH on body growth and metabolism.

Published
1997
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