The NITY motif of the beta-chain cytoplasmic domain is involved in stimulated internalization of the beta3 integrin A isoform

2001 ◽  
Vol 114 (6) ◽  
pp. 1101-1113
Author(s):  
M. Gawaz ◽  
F. Besta ◽  
J. Ylanne ◽  
T. Knorr ◽  
H. Dierks ◽  
...  

Beta3 integrin adhesion molecules play important roles in wound repair and the regulation of vascular development and three beta3 integrin isoforms (beta3-A, -B, -C) have been described so far. Surface expression of beta3 integrins is dynamically regulated through internalization of beta3 integrins, however, the molecular mechanisms are understood incompletely. To evaluate the role of the cytoplasmic domain of beta3 integrins for internalization, we have generated single chain chimeras with variant and mutated forms of beta3 cytoplasmic domains. Upon transient transfection into chinese hamster ovary cells, it was found that the beta3-A chimera had strongly reduced cell surface expression compared with the corresponding beta3-B, or beta3-C fusion proteins, or the tail-less constructs, whereas steady state levels of all chimeras were near identical. Studies employing cytoplasmic domain mutants showed that the NITY motif at beta3-A 756–759 is critical for plasma membrane expression of beta3-A. Furthermore, delivery of beta3-A to the cell surface was specifically modulated by the cytoplasmic protein beta3-endonexin, a previously described intracellular protein. Coexpression of the native, long form of beta3-endonexin, which does not interact with the beta3 tail, acted as a dominant negative inhibitor of beta3-A-internalization and enhanced steady-state surface expression of the beta3-A-chimera. Furthermore, anti-beta3 antibody-induced internalization of the native beta3 integrin (alpha(IIb)beta3 was dramatically reduced for the Tyr(759)-Ala substitution mutant (alpha(IIb)beta3) (Y759A) and expression of the long isoform of beta3-endonexin substantially decreased the internalization of wild-type alpha(IIb)beta3. Thus, the NITY motif of the beta-chain cytoplasmic domain is involved in stimulated internalization of the beta3 integrin A isoform and beta3-endonexin appears to couple the beta3-A isoform to a specific receptor-recycling pathway.

1996 ◽  
Vol 184 (5) ◽  
pp. 1833-1843 ◽  
Author(s):  
H Jacobs ◽  
J Iacomini ◽  
M van de Ven ◽  
S Tonegawa ◽  
A Berns

The T cell receptor beta (TCR beta) chain controls the developmental transition from CD4-CD8- to CD4+8+thymocytes. We show that the extracellular constant region and the transmembrane region, but not the variable domain or cytoplasmic tail of the TCR beta chain are required for this differentiation step. TCR beta mutant chains lacking the cytoplasmic tail can be found at the cell surface both in functional TCR/CD3 complexes and in a GPI-anchored monomeric form indicating that the cytoplasmic tail of the TCR beta chain functions as an ER retention signal. The concordance between cell surface expression of the mutant chains as TCR/CD3 complexes and their capacity to mediate thymocyte differentiation supports the CD3 mediated feedback model in which preTCR/CD3 complexes control the developmental transition from CD4-CD8- to CD4+CD8+thymocytes.


1995 ◽  
Vol 182 (6) ◽  
pp. 1997-2006 ◽  
Author(s):  
H Kishimoto ◽  
R T Kubo ◽  
H Yorifuji ◽  
T Nakayama ◽  
Y Asano ◽  
...  

Recent studies indicate that there may be functional uncoupling of the TCR-CD3 complex and suggest that the TCR-CD3 complex is composed of two parallel signal-transducing units, one made of gamma delta epsilon chains and the other of zeta chains. To elucidate the molecular mechanisms that may explain the functional uncoupling of TCR and CD3, we have analyzed their expression by using flow cytometry as well as immunochemical means both before and after stimulation with anti-TCR-beta, anti-CD3 epsilon, anti-CD2, staphylococcal enterotoxin B, and ionomycin. We present evidence that TCR physically dissociates from CD3 after stimulation of the TCR-CD3 complex. Stimulation with anti-CD3 resulted in down-modulation of TCR within 45 min whereas CD3 epsilon was still expressed on the cell surface as detected by flow cytometry. However, the cell surface expression of TCR and CD3 was not affected when cells were stimulated with anti-TCR-beta under the same conditions. In the case of anti-CD3 treatment of T cells, the TCR down-modulation appeared to be due to the internalization of TCR, as determined by immunoelectron microscopy. Immunochemical analysis of cells after stimulation with either anti-TCR or anti-CD3 mAbs revealed that the overall protein levels of TCR and CD3 were similar. More interestingly, the dissociation of the TCR-CD3 complex was observed with both treatments and occurred in a manner that the TCR and the associated TCR-zeta chain dissociated as a unit from CD3. These results provide the first report of physical dissociation of TCR and CD3 after stimulation through the TCR-CD3 complex. The results also suggest that the signal transduction pathway triggered by TCR may differ from that induced by CD3.


2000 ◽  
Vol 69 (Supplement) ◽  
pp. S342
Author(s):  
Prupti Malde ◽  
Anthony Dorling ◽  
Andrew T. George ◽  
Robert I. Lechler

2016 ◽  
Vol 36 (7) ◽  
pp. 1152-1163 ◽  
Author(s):  
Maoxiang Zhang ◽  
Jason E. Davis ◽  
Chunman Li ◽  
Jie Gao ◽  
Wei Huang ◽  
...  

Molecular mechanisms governing the anterograde trafficking of nascent G protein-coupled receptors (GPCRs) are poorly understood. Here, we have studied the regulation of cell surface transport of α2-adrenergic receptors (α2-ARs) by GGA3 (Golgi-localized, γ-adaptin ear domain homology, ADP ribosylation factor-binding protein 3), a multidomain clathrin adaptor protein that sorts cargo proteins at thetrans-Golgi network (TGN) to the endosome/lysosome pathway. By using an inducible system, we demonstrated that GGA3 knockdown significantly inhibited the cell surface expression of newly synthesized α2B-AR without altering overall receptor synthesis and internalization. The receptors were arrested in the TGN. Furthermore, GGA3 knockdown attenuated α2B-AR-mediated signaling, including extracellular signal-regulated kinase 1/2 (ERK1/2) activation and cyclic AMP (cAMP) inhibition. More interestingly, GGA3 physically interacted with α2B-AR, and the interaction sites were identified as the triple Arg motif in the third intracellular loop of the receptor and the acidic motif EDWE in the VHS domain of GGA3. In contrast, α2A-AR did not interact with GGA3 and its cell surface export and signaling were not affected by GGA3 knockdown. These data reveal a novel function of GGA3 in export trafficking of a GPCR that is mediated via a specific interaction with the receptor.


Blood ◽  
2007 ◽  
Vol 110 (11) ◽  
pp. 2762-2762
Author(s):  
Daniel P. Hart ◽  
Sharyn Thomas ◽  
Shao-an Xue ◽  
Emma C. Morris ◽  
Hans J. Stauss

Abstract Hodgkin lymphoma (HL) is the second most commonly diagnosed cancer in the 15–29 year old population. EBV-positive Hodgkin lymphoma typically demonstrates latency II antigen expression, characterised by loss of most EBV antigens except for the latent membrane protein (LMP) 1 and 2 and the EBNA-1 protein. LMP2 is expressed in Reed Sternberg cells and may serve as a target for antigen-specific immunotherapy. However, LMP2 is poorly immunogenic and it is often difficult to generate autologous LMP2-specific cytotoxic T lymphocytes (CTL) for adoptive immunotherapy. T cell receptor (TCR) gene transfer using retroviral vectors containing the TCR alpha and beta chain genes can reproducibly redirect the antigen specificity of a given population of T cells. Such an approach has been used here to generate LMP2-specific CTL independent of the immuno-competence of the patient. The goal of this study was to generate a retroviral TCR construct suitable for rapid and efficient production of LMP2-specific CTL. Retrovirally introduced TCRs compete with endogenous TCRs for a limited pool of CD3 molecules required for assembly of the TCR complex. Competition for CD3 molecules may limit surface expression of the introduced TCR resulting in a transduced T cell with poor functional avidity. In an attempt to generate a ‘highly competitive’ LMP2-TCR the following modifications were made to the retroviral vector construct: nucleotide sequences were codon optimised for efficient translation in human cells; the TCR chain constant regions were altered to contain murine sequences to enhance CD3 binding; and the TCR alpha and beta chain genes were linked by a self-cleaving 2A sequence from the porcine teschovirus to enhance equimolar expression of both TCR chains. The unmodified HLA-A2-restricted LMP2-specific TCR was poorly expressed in primary human T cells, suggesting that it competed inefficiently with endogenous TCR chains for cell surface expression. Very few CD8+Vβ13+ T cells were detectable after LMP2-TCR transduction (up to 2.5% of viable CD3+ T cells, as detected by FACs analysis using monoclonal anti-Vβ13 antibodies), which included 1.9% CD8+ T cells expressing endogenous Vβ13+ TCRs as quantified in mock-transduced control cells. Poor expression of the wild type LMP2-TCR was consistently observed in independent transduction experiments. However, transduction with the modified LMP2-TCR construct resulted in cell surface expression of the TCR in 55–65% viable CD3+ T cells. HLA-A2/LMP2 pentamer binding was demonstrated in 36–39% CD8+ CTL cells immediately post transduction. The transduced cells showed peptide-specific IFNγ and IL2 production and killed target cells displaying the LMP2 peptide. Of major importance, expression of the introduced LMP2-TCR completely suppressed the cell surface expression of almost the entire repertoire of endogenous TCR combinations, including ‘mis-paired’ TCRs in the transduced primary human T cells. ‘Mis-paired’ TCRs contain an introduced alpha chain paired with an endogenous beta chain and vice versa. The antigen specificity of such mispaired TCRs generated after transduction is unknown and could lead to unwanted side effects. The design of vectors containing modified TCR sequences, which produce ‘dominant’ TCRs may improve the efficacy of TCR gene therapy and reduce the risk of potential auto-reactivity of endogenous and ‘mis-paired’ TCR combinations. We have shown that LMP2-specific T cells can be readily generated by TCR gene transfer with minimal risk of autoreactivity.


2019 ◽  
Author(s):  
Seok Kyu Kang ◽  
Carlos G. Vanoye ◽  
Sunita N. Misra ◽  
Dennis M. Echevarria ◽  
Jeffrey D. Calhoun ◽  
...  

ABSTRACTPathogenic variants in KCNB1, encoding the voltage-gated potassium channel Kv2.1, are associated with developmental and epileptic encephalopathies (DEE). Previous functional studies on a limited number of KCNB1 variants indicated a range of molecular mechanisms by which variants affect channel function, including loss of voltage sensitivity, loss of ion selectivity, and reduced cell-surface expression. We evaluated a series of 17 KCNB1 variants associated with DEE or neurodevelopmental disorder (NDD) to rapidly ascertain channel dysfunction using high-throughput functional assays. Specifically, we investigated the biophysical properties and cell-surface expression of variant Kv2.1 channels expressed in heterologous cells using high-throughput automated electrophysiology and immunocytochemistry-flow cytometry. Pathogenic variants exhibited diverse functional defects, including altered current density and shifts in the voltage-dependence of activation and/or inactivation, as homotetramers or when co-expressed with wild-type Kv2.1. Quantification of protein expression also identified variants with reduced total Kv2.1 expression or deficient cell-surface expression.Our study establishes a platform for rapid screening of functional defects of KCNB1 variants associated with DEE and other NDDs, which will aid in establishing KCNB1 variant pathogenicity and may enable discovery of targeted strategies for therapeutic intervention based on molecular phenotype.


2000 ◽  
Vol 69 (6) ◽  
pp. 1209-1217 ◽  
Author(s):  
Sanjay Kulkarni ◽  
Philmore O. Holman ◽  
Adam Kopelan ◽  
Gijis A. van Seventer ◽  
Jean M. van Seventer ◽  
...  

Biomolecules ◽  
2020 ◽  
Vol 10 (10) ◽  
pp. 1356
Author(s):  
Péter Hollósi ◽  
Lóránd Váncza ◽  
Katalin Karászi ◽  
Katalin Dobos ◽  
Bálint Péterfia ◽  
...  

Syndecan-1 is a transmembrane heparan sulfate proteoglycan which is indispensable in the structural and functional integrity of epithelia. Normal hepatocytes display strong cell surface expression of syndecan-1; however, upon malignant transformation, they may lose it from their cell surfaces. In this study, we demonstrate that re-expression of full-length or ectodomain-deleted syndecan-1 in hepatocellular carcinoma cells downregulates phosphorylation of ERK1/2 and p38, with the truncated form exerting an even stronger effect than the full-length protein. Furthermore, overexpression of syndecan-1 in hepatoma cells is associated with a shift of heparan sulfate structure toward a highly sulfated type specific for normal liver. As a result, cell proliferation and proteolytic shedding of syndecan-1 from the cell surface are restrained, which facilitates redifferentiation of hepatoma cells to a more hepatocyte-like phenotype. Our results highlight the importance of syndecan-1 in the formation and maintenance of differentiated epithelial characteristics in hepatocytes partly via the HGF/ERK/Ets-1 signal transduction pathway. Downregulation of Ets-1 expression alone, however, was not sufficient to replicate the phenotype of syndecan-1 overexpressing cells, indicating the need for additional molecular mechanisms. Accordingly, a reporter gene assay revealed the inhibition of Ets-1 as well as AP-1 transcription factor-induced promoter activation, presumably an effect of the heparan sulfate switch.


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