The Role of ShcA Phosphotyrosine Signaling in the Myocardium

Vanderlaa, Rachel

31 August 2011

Tyrosine kinases (TK) are important for cardiac function, but their downstream targets in the adult heart have yet to be established. The ShcA docking protein binds specific phosphotyrosine (pTyr) sites on activated TKs through its N-terminal PTB and C-terminal SH2 domains and stimulates downstream pathways through motifs such as pTyr sites in its central CH1 region. To explore the role of this TK scaffold in the adult heart, we generated a myocardial-specific knockout of murine ShcA (ShcA CKO). Such mice developed a dilated cardiomyopathy phenotype involving impaired systolic function with enhanced cardiomyocyte contractility. This uncoupling of global heart and intrinsic myocyte functions was associated with altered perimysial collagen and extracellular matrix complicance properties, suggesting disruption of mechanical coupling. In vivo dissection of ShcA signaling properties revealed that selective inactivation of the PTB domain in the myocardium had effects resembling those seen in ShcA CKO mice, while disruption of the SH2 domain caused a less severe cardiac phenotype. Downstream signaling through the CH1 pTyr sites was dispensable for baseline cardiac function, but necessary to prevent adverse remodeling after hemodynamic overload. Therefore, ShcA mediates pTyr signaling in the adult heart through multiple distinct signaling elements that control myocardial functions and response to stresses.

adaptor protein

cardiovascular

0307

The Role of ShcA Phosphotyrosine Signaling in the Myocardium

Vanderlaa, Rachel

31 August 2011

Tyrosine kinases (TK) are important for cardiac function, but their downstream targets in the adult heart have yet to be established. The ShcA docking protein binds specific phosphotyrosine (pTyr) sites on activated TKs through its N-terminal PTB and C-terminal SH2 domains and stimulates downstream pathways through motifs such as pTyr sites in its central CH1 region. To explore the role of this TK scaffold in the adult heart, we generated a myocardial-specific knockout of murine ShcA (ShcA CKO). Such mice developed a dilated cardiomyopathy phenotype involving impaired systolic function with enhanced cardiomyocyte contractility. This uncoupling of global heart and intrinsic myocyte functions was associated with altered perimysial collagen and extracellular matrix complicance properties, suggesting disruption of mechanical coupling. In vivo dissection of ShcA signaling properties revealed that selective inactivation of the PTB domain in the myocardium had effects resembling those seen in ShcA CKO mice, while disruption of the SH2 domain caused a less severe cardiac phenotype. Downstream signaling through the CH1 pTyr sites was dispensable for baseline cardiac function, but necessary to prevent adverse remodeling after hemodynamic overload. Therefore, ShcA mediates pTyr signaling in the adult heart through multiple distinct signaling elements that control myocardial functions and response to stresses.

adaptor protein

cardiovascular

0307

Neuronal insulin signaling and the regulation of mammalian lifespan a dissertation /

Ramos, Fresnida.

January 2008

Dissertation (Ph.D.).--University of Texas Graduate School of Biomedical Sciences at San Antonio, 2008. / Vita. Includes bibliographical references.

Sorting nexin 9 in clathrin-mediated endocytosis /

Lundmark, Richard,

January 2004

Diss. (sammanfattning) Umeå : Univ., 2004. / Härtill 3 uppsatser.

Role of the Src-like Adaptor Proteins, SLAP and SLAP-2, in Dendritic Cell Development and SIgnaling

Liontos, Larissa

28 March 2011

Dendritic cells (DC) are critical to an immune response by functioning as sensors of foreign antigen and presenting antigen to direct T cell responses. Under the influence of Flt3 ligand this heterogeneous group of cells originate from hematopoietic stem cells (HSCs) in the bone marrow and takes up residence in lymphoid organs, skin as well as mucosal surfaces where they are most likely to encounter pathogens. GM-CSF is another cytokine involved in DC development that is specifically involved in the maintenance of skin resident DC. Together Flt3L and GM-CSF as well as their respective receptors, Flt3 and GM-CSFR, are the most important factors identified to date for maintenance of DC homeostasis. The Src-like adaptor proteins, SLAP and SLAP-2, are negative regulators of antigen receptor signaling. SLAP and SLAP2 contain SH3 and SH2 protein interaction modules that facilitate interaction with proline-rich sequences and phosphotyrosine motifs, respectively. Through a unique C-terminal region, SLAP and SLAP2 also interact with the E3 ubiquitin ligase, c-Cbl. SLAP and SLAP2 enhance c-Cbl-mediated ubiquitylation and down-regulation of antigen receptors by binding both activated receptors and c-Cbl. SLAP and SLAP2 have also been shown to function as negative regulators of receptor tyrosine kinases (RTKs) and our group has shown that SLAP and SLAP2 bind to and inhibit the colony-stimulating factor-1 receptor (CSF-1R). In the work presented here, we identify a novel role for SLAP in regulation of the GM-CSF receptor of bone marrow (BM)-derived DC. We show that potentiated GM-CSF signaling, in the absence of SLAP and SLAP2, impairs BM-DC maturation such that these cells express minimal MHCII, secrete low amounts of IL-12 and are functionally impaired in their ability to stimulate T cell responses. SLAP and SLAP2 deficiency also has an effect on Flt3L-derived BM-DC development. For example, SLAP/SLAP2-/- BM-DC numbers are reduced in the presence of Flt3L as compared to wild-type BM-DC. To investigate the mechanism of reduced DC numbers, we examined splenic DC and found that DC numbers were similar in wild-type and SLAP/SLAP2-/- mice. In fact, SLAP/SLAP2-/- mice had proportionally more CD8α+ splenic DC in vivo than wild-type mice. Thus there may be cytokines affected by SLAP/SLAP2-deficiency in our cultures that are either dispensable or compensated for in vivo DC development. The work presented in this thesis has implications for the role of SLAP and SLAP2 in immune response to infections by the regulation of GM-CSFR and Flt3 in maintaining dendritic cell homeostasis.

adaptor protein

dendritic cells

signal transduction

0307

0760

Role of the Src-like Adaptor Proteins, SLAP and SLAP-2, in Dendritic Cell Development and SIgnaling

Liontos, Larissa

28 March 2011

Dendritic cells (DC) are critical to an immune response by functioning as sensors of foreign antigen and presenting antigen to direct T cell responses. Under the influence of Flt3 ligand this heterogeneous group of cells originate from hematopoietic stem cells (HSCs) in the bone marrow and takes up residence in lymphoid organs, skin as well as mucosal surfaces where they are most likely to encounter pathogens. GM-CSF is another cytokine involved in DC development that is specifically involved in the maintenance of skin resident DC. Together Flt3L and GM-CSF as well as their respective receptors, Flt3 and GM-CSFR, are the most important factors identified to date for maintenance of DC homeostasis. The Src-like adaptor proteins, SLAP and SLAP-2, are negative regulators of antigen receptor signaling. SLAP and SLAP2 contain SH3 and SH2 protein interaction modules that facilitate interaction with proline-rich sequences and phosphotyrosine motifs, respectively. Through a unique C-terminal region, SLAP and SLAP2 also interact with the E3 ubiquitin ligase, c-Cbl. SLAP and SLAP2 enhance c-Cbl-mediated ubiquitylation and down-regulation of antigen receptors by binding both activated receptors and c-Cbl. SLAP and SLAP2 have also been shown to function as negative regulators of receptor tyrosine kinases (RTKs) and our group has shown that SLAP and SLAP2 bind to and inhibit the colony-stimulating factor-1 receptor (CSF-1R). In the work presented here, we identify a novel role for SLAP in regulation of the GM-CSF receptor of bone marrow (BM)-derived DC. We show that potentiated GM-CSF signaling, in the absence of SLAP and SLAP2, impairs BM-DC maturation such that these cells express minimal MHCII, secrete low amounts of IL-12 and are functionally impaired in their ability to stimulate T cell responses. SLAP and SLAP2 deficiency also has an effect on Flt3L-derived BM-DC development. For example, SLAP/SLAP2-/- BM-DC numbers are reduced in the presence of Flt3L as compared to wild-type BM-DC. To investigate the mechanism of reduced DC numbers, we examined splenic DC and found that DC numbers were similar in wild-type and SLAP/SLAP2-/- mice. In fact, SLAP/SLAP2-/- mice had proportionally more CD8α+ splenic DC in vivo than wild-type mice. Thus there may be cytokines affected by SLAP/SLAP2-deficiency in our cultures that are either dispensable or compensated for in vivo DC development. The work presented in this thesis has implications for the role of SLAP and SLAP2 in immune response to infections by the regulation of GM-CSFR and Flt3 in maintaining dendritic cell homeostasis.

adaptor protein

dendritic cells

signal transduction

0307

0760

Membrane trafficking and endocytosis in neurons

Murshid, Ayesha.

January 2008

No description available.

Endocytosis.

Neurons -- physiology.

Clathrin -- metabolism.

Adaptor Protein Complex 2 -- metabolism.

The mechanistic link between Arc/Arg3.1 expression and AMPA receptor endocytosis

Wall, M.J., Corrêa, Sonia A.L.

07 September 2017

Yes / The activity-regulated cytoskeleton associated protein (Arc/Arg3.1) plays a key role in determining synaptic strength through facilitation of AMPA receptor (AMPAR) endocytosis. Although there is considerable data on the mechanism by which Arc induction controls synaptic plasticity and learning behaviours, several key mechanistic questions remain. Here we review data on the link between Arc expression and the clathrin-mediated endocytic pathway which internalises AMPARs and discuss the significance of Arc binding to the clathrin adaptor protein 2 (AP-2) and to endophilin/dynamin. We consider which AMPAR subunits are selected for Arc-mediated internalisation, implications for synaptic function and consider Arc as a therapeutic target. / The work in S.A.L.C. laboratory is supported by the BBSRC (BB/H018344/1 and BB/J02127X/1) and Wellcome Trust 200646/Z/16/Z. The work in M.J.W. Laboratory is supported by ERUK.

Spectroscopic Characterization of the Interaction of Nck Domains with the Epidermal Growth Factor Receptor Juxtamembrane Domain

Hake, Michael James

05 April 2008

No description available.

Biochemistry

Biophysics

Protein-protein interaction

signaling

adaptor protein

NMR

structure

Aire regulates central and peripheral tolerance through direct control of autoantigens and other key genes in thymus epithelial cells and dendritic cells

Ruan, Qingguo.

January 2004

Thesis (Ph.D.)--University of Florida, 2004. / Typescript. Title from title page of source document. Document formatted into pages; contains 100 pages. Includes Vita. Includes bibliographical references.