Your search keyword '"Palacios, Emil H."' showing total 11 results

1. Distinct roles for Syk and ZAP-70 during early thymocyte development

Author

Palacios, Emil H and Weiss, Arthur

Subjects

Biomedical and Clinical Sciences, Animals, CD8 Antigens, Flow Cytometry, Intracellular Signaling Peptides and Proteins, Mice, Mice, Knockout, Polymerase Chain Reaction, Protein-Tyrosine Kinases, RNA, Syk Kinase, T-Lymphocytes, ZAP-70 Protein-Tyrosine Kinase, Medical and Health Sciences, Immunology, Biomedical and clinical sciences, Health sciences

Abstract

The spleen tyrosine kinase (Syk) and zeta-associated protein of 70 kD (ZAP-70) tyrosine kinases are both expressed during early thymocyte development, but their unique thymic functions have remained obscure. No specific role for Syk during beta-selection has been established, and no role has been described for ZAP-70 before positive selection. We show that Syk and ZAP-70 provide thymocytes with unique and separable fitness advantages during early development. Syk-deficient, but not ZAP-70-deficient, thymocytes are specifically impaired in initial pre-TCR signaling at the double-negative (DN) 3 beta selection stage and show reduced cell-cycle entry. Surprisingly, and despite overlapping expression of both kinases, only ZAP-70 appears to promote sustained pre-TCR/TCR signaling during the DN4, immature single-positive, and double-positive stages of development before thymic selection occurs. ZAP-70 promotes survival and cell-cycle progression of developing thymocytes before positive selection, as also shown by in vivo anti-CD3 treatment of recombinase-activating gene 1-deficient mice. Our results establish a temporal separation of Syk family kinase function during early thymocyte development and a novel role for ZAP-70. We propose that pre-TCR signaling continues during DN4 and later stages, with ZAP-70 dynamically replacing Syk for continued pre-TCR signaling.

Published

2007

2. Differential requirements for CD45 in NK-cell function reveal distinct roles for Syk-family kinases

Author

Hesslein, David G.T., Palacios, Emil H., Sun, Joseph C., Beilke, Joshua N., Watson, Susan R., Weiss, Arthur, and Lanier, Lewis L.

Published

2011

3. Function of the Src-family kinases, Lck and Fyn, in T-cell development and activation

Author

Palacios, Emil H and Weiss, Arthur

Published

2004

4. Development of a Robust and Sensitive RUO Sequencing Assay for the NS3/4A Region of HCV Genotypes 1A and 1B: 992

Author

Palacios, Emil H., Santini, Christopher D., Kagan, Ron M., and Chang, Sheng-Yung P.

Published

2012

5. On the signaling of the pre-TCR

Author

Palacios, Emil H.

Subjects

Biology, General

Abstract

The function of tyrosine kinase activity during canonical T cell antigen receptor (TCR) signaling in T cells has been intensively studied over the past 18 years. This signaling pathway is critical at multiple stages of T cell development. Which kinase family members are used at these stages has been largely described for the Src-family kinases (SFK), but less is known of the Syk-family kinases. Previous studies have suggested that neither of the Syk-family kinases, Syk or ZAP-70, serves a unique function during the earliest stage that requires signaling through the antigen receptor, the β-selection stage that uses the pre-TCR. Moreover, ZAP-70 has previously only been shown to have a unique role in propagating thymic selection signals. This thesis establishes the relative levels of both Syk-family kinases in all major thymocytes subsets. It will demonstrate that Syk and ZAP-70 serve unique, temporally separable functions during early thymocyte development and that pre-TCR signaling continues well after the originally established DN3 stage and on through multiple developmental stages until immediately before positive selection. Further, it will be shown that the phosphatase CD45, a positive regulator of antigen receptor signaling, is also critically required for early developmental progression, including the newly described sustained pre-TCR stages.

Published

2008

6. The structure, regulation, and function of ZAP-70

Author

Au-Yeung, Byron B., Deindl, Sebastian, Hsu, Lih-Yun, Palacios, Emil H., Levin, Susan E., Kuriyan, John, and Weiss, Arthur

Published

2009

7. Real-time quantitation of HIV-1 p24 and SIV p27 using fluorescence-linked antigen quantification assays

Author

Hayden, Matthew S, Palacios, Emil H, and Grant, Robert M

Published

2003

8. Selective Loss of Innate CD4 + Vα24 Natural Killer T Cells in Human Immunodeficiency Virus Infection

Author

Sandberg, Johan K., primary, Fast, Noam M., additional, Palacios, Emil H., additional, Fennelly, Glenn, additional, Dobroszycki, Joanna, additional, Palumbo, Paul, additional, Wiznia, Andrew, additional, Grant, Robert M., additional, Bhardwaj, Nina, additional, Rosenberg, Michael G., additional, and Nixon, Douglas F., additional

Published

2002

9. Cytopathicity of Human Immunodeficiency Virus Type 2 (HIV-2) in Human Lymphoid Tissue Is Coreceptor Dependent and Comparable to That of HIV-1

Author

Schramm, Birgit, primary, Penn, Michael L., additional, Palacios, Emil H., additional, Grant, Robert M., additional, Kirchhoff, Frank, additional, and Goldsmith, Mark A., additional

Published

2000

10. Selective loss of innate CD4(+) V alpha 24 natural killer T cells in human immunodeficiency virus infection.

Author

Sandberg, Johan K, Fast, Noam M, Palacios, Emil H, Fennelly, Glenn, Dobroszycki, Joanna, Palumbo, Paul, Wiznia, Andrew, Grant, Robert M, Bhardwaj, Nina, Rosenberg, Michael G, and Nixon, Douglas F

Abstract

V alpha 24 natural killer T (NKT) cells are innate immune cells involved in regulation of immune tolerance, autoimmunity, and tumor immunity. However, the effect of human immunodeficiency virus type 1 (HIV-1) infection on these cells is unknown. Here, we report that the V alpha 24 NKT cells can be subdivided into CD4(+) or CD4(-) subsets that differ in their expression of the homing receptors CD62L and CD11a. Furthermore, both CD4(+) and CD4(-) NKT cells frequently express both CXCR4 and CCR5 HIV coreceptors. We find that the numbers of NKT cells are reduced in HIV-infected subjects with uncontrolled viremia and marked CD4(+) T-cell depletion. The number of CD4(+) NKT cells is inversely correlated with HIV load, indicating depletion of this subset. In contrast, CD4(-) NKT-cell numbers are unaffected in subjects with high viral loads. HIV infection experiments in vitro show preferential depletion of CD4(+) NKT cells relative to regular CD4(+) T cells, in particular with virus that uses the CCR5 coreceptor. Thus, HIV infection causes a selective loss of CD4(+) lymph node homing (CD62L(+)) NKT cells, with consequent skewing of the NKT-cell compartment to a predominantly CD4(-) CD62L(-) phenotype. These data indicate that the key immunoregulatory NKT-cell compartment is compromised in HIV-1-infected patients.

Published

2002

11. Selective Loss of Innate CD4+Va24 Natural Killer T Cells in Human Immunodeficiency Virus Infection

Author

Sandberg, Johan K., Fast, Noam M., Palacios, Emil H., Fennelly, Glenn, Dobroszycki, Joanna, Palumbo, Paul, Wiznia, Andrew, Grant, Robert M., Bhardwaj, Nina, Rosenberg, Michael G., and Nixon, Douglas F.

Abstract

ABSTRACTVa24 natural killer T (NKT) cells are innate immune cells involved in regulation of immune tolerance, autoimmunity, and tumor immunity. However, the effect of human immunodeficiency virus type 1 (HIV-1) infection on these cells is unknown. Here, we report that the Va24 NKT cells can be subdivided into CD4+or CD4-subsets that differ in their expression of the homing receptors CD62L and CD11a. Furthermore, both CD4+and CD4-NKT cells frequently express both CXCR4 and CCR5 HIV coreceptors. We find that the numbers of NKT cells are reduced in HIV-infected subjects with uncontrolled viremia and marked CD4+T-cell depletion. The number of CD4+NKT cells is inversely correlated with HIV load, indicating depletion of this subset. In contrast, CD4-NKT-cell numbers are unaffected in subjects with high viral loads. HIV infection experiments in vitro show preferential depletion of CD4+NKT cells relative to regular CD4+T cells, in particular with virus that uses the CCR5 coreceptor. Thus, HIV infection causes a selective loss of CD4+lymph node homing (CD62L+) NKT cells, with consequent skewing of the NKT-cell compartment to a predominantly CD4-CD62L-phenotype. These data indicate that the key immunoregulatory NKT-cell compartment is compromised in HIV-1-infected patients.

Published

2002