Your search keyword '"Vladau C"' showing total 16 results

1. Preventing Renal IschemiaReperfusion Injury Using Small Interfering RNA by Targeting Complement 3 Gene

Author

Zheng, X., Feng, B., Chen, G., Zhang, X., Li, M., Sun, H., Liu, W., Vladau, C., Liu, R., Jevnikar, A.M., Garcia, B., Zhong, R., and Min, W.-P

Published

2006

2. Preventing Renal Ischemia–Reperfusion Injury Using Small Interfering RNA by Targeting Complement 3 Gene

Author

Zheng, X., Feng, B., Chen, G., Zhang, X., Li, M., Sun, H., Liu, W., Vladau, C., Liu, R., Jevnikar, A. M., Garcia, B., Zhong, R., and Min, W. -P.

Published

2006

3. Novel Therapy for Allergy through Immunomodulation by CD40-silenced Dendritic Cells

Author

SUZUKI, M, primary, ZHENG, X, additional, ZHANG, X, additional, LI, M, additional, VLADAU, C, additional, ICHIM, T, additional, SUN, H, additional, MIN, L, additional, KUBO, N, additional, and GARCIA, B, additional

Published

2008

4. Tolerogenic dendritic cells transferring hyporesponsiveness and synergizing T regulatory cells in transplant tolerance

Author

Li, M., primary, Zhang, X., additional, Zheng, X., additional, Lian, D., additional, Zhang, Z.-X., additional, Sun, H., additional, Suzuki, M., additional, Vladau, C., additional, Huang, X., additional, Xia, X., additional, Zhong, R., additional, Garcia, B., additional, and Min, W.-P., additional

Published

2008

5. Integrin α2β1 modulates EGF stimulation of Rho GTPase‐dependent morphological changes in adherent human rhabdomyosarcoma RD cells

Author

Leabu, M., primary, Uniyal, S., additional, Xie, J., additional, Xu, Y.Q., additional, Vladau, C., additional, Morris, V.L., additional, and Chan, B.M.C., additional

Published

2004

6. siRNA specific delivery system for targeting dendritic cells.

Author

Zheng X, Vladau C, Shunner A, and Min WP

Subjects

Animals, CD40 Antigens immunology, Mice, Mice, Inbred BALB C, Mice, Inbred C57BL, Dendritic Cells metabolism, Genetic Techniques, RNA, Small Interfering genetics

Abstract

siRNA therapy offers immense potential for clinical application. Under physiological conditions, however, siRNA was demonstrated to have a short half-life. Additionally, it may also cause ubiquitous gene silencing as it does not possess a tissue-specific homing mechanism. Thus, the rate-limiting step in the emergence of siRNA as a potential therapeutic agent is the current lack of a safe and tissue- or cell-specific in vivo delivery system. Herein, we propose a novel, cell-specific method for the in vivo delivery of siRNA to dendritic cells (DCs) with the purpose of inducing immune modulation. CD40 siRNA was incorporated within the interior of 86 nm liposomes, which were decorated with surface-bound mAb NLDC-145 as a targeting mechanism. The siRNA encapsulation efficiency was determined to be approximately 7%. CD40 siRNA immunoliposomes (CD40 siILs) were able to specifically bind to DCs and silence CD40 expression in vitro. Furthermore, in vitro CD40-silenced DCs significantly inhibited the proliferation of alloreactive T cells in an MLR. Upon in vivo administration, siIL-encapsulated, Cy3-labeled siRNA exhibited moderate uptake by the liver at an early time point following administration with greater accumulation in the spleen at a later time point. In contrast, naked siRNA primarily accumulated in the kidney immediately after administration and circulated out in a short time period. To address in vivo gene silencing and immune modulation, mice were simultaneously immunized with KLH and subcutaneously injected with DC-specific CD40 siILs, siILs containing negative control siRNA, naked CD40 siRNA, or PBS. A second injection of CD40 siILs, or control treatments, followed 24 h later. Flow cytometry, reverse transcriptase PCR, and quantitative real-time PCR analysis of CD11c(+) DCs from mice treated with CD40 siILs demonstrated reduced expression of CD40, in comparison with control groups. CD11c(-) cells were also analyzed by flow cytometry, but no differences were observed between treatment groups. Furthermore, CD40 siIL-treated mice were found to have an increased proportion of Treg cells (CD4(+)CD25(+) FoxP3(+)), and DCs cells from these mice were able to inhibit T cell proliferation in an antigen-specific recall response. In summary, CD40 siILs were shown to specifically target and deliver CD40 siRNA to DCs, significantly reducing CD40 expression and resulting in DC-mediated immune modulation as well as generation of Treg cells. These findings highlight the therapeutic potential for siRNA-based and DC-mediated immunotherapy in the clinic. To the best of our knowledge, this is the first study to use siILs for targeted delivery of siRNA to DCs and for immune modulation.

Published

2010

7. A novel in vivo siRNA delivery system specifically targeting dendritic cells and silencing CD40 genes for immunomodulation.

Author

Zheng X, Vladau C, Zhang X, Suzuki M, Ichim TE, Zhang ZX, Li M, Carrier E, Garcia B, Jevnikar AM, and Min WP

Subjects

Animals, Antibodies, Monoclonal administration & dosage, Antibodies, Monoclonal immunology, Antigens, CD immunology, Bone Marrow Cells cytology, CD40 Antigens biosynthesis, CD40 Antigens genetics, CD40 Antigens immunology, Cells, Cultured drug effects, Cells, Cultured immunology, Dendritic Cells immunology, Drug Delivery Systems, Immunoconjugates administration & dosage, Lectins, C-Type immunology, Liposomes, Lymphocyte Activation drug effects, Lymphoid Tissue drug effects, Lymphoid Tissue ultrastructure, Male, Mice, Mice, Inbred BALB C, Mice, Inbred C57BL, Minor Histocompatibility Antigens, RNA, Small Interfering pharmacology, RNA, Small Interfering therapeutic use, Receptors, Cell Surface immunology, T-Lymphocytes immunology, Antigen Presentation drug effects, CD40 Antigens antagonists & inhibitors, Dendritic Cells drug effects, Genetic Therapy methods, Immunosuppression Therapy methods, RNA Interference, RNA, Small Interfering administration & dosage

Abstract

Translation of small interfering RNA (siRNA)-based approaches into practical therapeutics is limited because of lack of an effective and cell-specific delivery system. Herein, we present a new method of selectively delivering siRNA to dendritic cells (DCs) in vivo using CD40 siRNA-containing immunoliposomes (siILs) that were decorated with DC-specific DEC-205 mAb. Administration of CD40 siILs resulted in DC-specific cell targeting in vitro and in vivo. On treatment with CD40 siILs, the expression of CD40 in DCs, as well allostimulatory activity was inhibited. In vivo administration resulted in selective siRNA uptake into immune organs and functional immune modulation as assessed using a model antigen. In conclusion, this is the first demonstration of DC-specific siRNA delivery and gene silencing in vivo, which highlights the potential of DC-mediated immune modulation and the feasibility of siRNA-based clinical therapy.

Published

2009

8. Novel vaccination for allergy through gene silencing of CD40 using small interfering RNA.

Author

Suzuki M, Zheng X, Zhang X, Li M, Vladau C, Ichim TE, Sun H, Min LR, Garcia B, and Min WP

Subjects

Animals, B-Lymphocytes immunology, B-Lymphocytes metabolism, CD40 Antigens physiology, Coculture Techniques, Dendritic Cells immunology, Dendritic Cells metabolism, Down-Regulation genetics, Down-Regulation immunology, Feasibility Studies, Hypersensitivity genetics, Immunoglobulin E biosynthesis, Immunoglobulin E metabolism, Immunoglobulin G biosynthesis, Immunoglobulin G metabolism, Immunosuppressive Agents administration & dosage, Immunosuppressive Agents immunology, Male, Mice, Mice, Inbred BALB C, Mice, Inbred C57BL, Ovalbumin administration & dosage, Ovalbumin immunology, RNA, Small Interfering administration & dosage, T-Lymphocytes, Regulatory immunology, T-Lymphocytes, Regulatory metabolism, Vaccines, Synthetic administration & dosage, CD40 Antigens antagonists & inhibitors, CD40 Antigens genetics, Gene Silencing immunology, Hypersensitivity immunology, Hypersensitivity therapy, RNA, Small Interfering immunology, Vaccines, Synthetic immunology

Abstract

Small interfering RNA (siRNA) is a potent means of inducing gene-specific silencing. Gene silencing strategies using siRNA have demonstrated therapeutic benefits in animal models of various diseases, and are currently in clinical trials. However, the utility of gene silencing as a treatment for allergic diseases has not yet been reported. In this study, we report a novel therapy for allergy through gene silencing of CD40, a critical costimulatory molecule and a key factor in allergic immune responses. Silencing CD40 resulted in generation of immunoregulatory dendritic cells (DCs). Administration of CD40 siRNA remarkably reduced nasal allergic symptoms and local eosinophil accumulation in the OVA-induced allergic mice. The OVA-specific T cell response was inhibited after the CD40 siRNA treatment. Additionally, anti-OVA specific IgE and production of IL-4 and IL-5 of T cells stimulated by OVA were significantly decreased in CD40 siRNA-treated mice. Furthermore, we demonstrated that the therapeutic effects by CD40 siRNA were associated with impaired Ag-presenting functions of DCs and B cells, and generation of regulatory T cells. The present study highlights a therapeutic potential of siRNA-based treatment for allergic diseases.

Published

2008

9. Generation of therapeutic dendritic cells and regulatory T cells for preventing allogeneic cardiac graft rejection.

Author

Zhang X, Li M, Lian D, Zheng X, Zhang ZX, Ichim TE, Xia X, Huang X, Vladau C, Suzuki M, Garcia B, Jevnikar AM, and Min WP

Subjects

Adoptive Transfer, Animals, B7-2 Antigen immunology, B7-2 Antigen metabolism, CD40 Antigens immunology, CD40 Antigens metabolism, Dendritic Cells metabolism, Graft Rejection immunology, Graft Rejection metabolism, Graft Survival, Guanidines pharmacology, Histocompatibility Antigens Class II immunology, Histocompatibility Antigens Class II metabolism, Immunosuppressive Agents pharmacology, Male, Mice, Mice, Inbred BALB C, Mice, Inbred C57BL, T-Lymphocytes, Regulatory metabolism, Dendritic Cells immunology, Graft Rejection prevention & control, Heart Transplantation immunology, T-Lymphocytes, Regulatory immunology, Transplantation Tolerance immunology

Abstract

Tolerogenic dendritic cells (Tol-DCs) and regulatory T cells (Treg) are key factors in the induction and maintenance of transplantation tolerance. We previously demonstrated that ex vivo-isolated Tol-DCs promote Treg generation, and vice versa, in an in vitro co-culture system. Here we demonstrate the occurrence of such an immune regulatory feedback loop in vivo. Tol-DC generated in vitro by treatment with LF 15-0195 exhibited features of immature DC and express low levels of MHC class II, CD86 and CD40. These Tol-DCs were capable of augmenting CD4(+)CD25(+)CTLA4(+) and FoxP3(+) Treg cell numbers and activity in cardiac allograft recipients. On the other hand, Tol-DCs possessed an ability to generate Treg cells in vitro. The adoptive transfer of these in vitro-generated Treg cells resulted in an increase of Tol-DC in vivo, suggesting that an immune regulatory feedback loop, between Tol-DC and Treg, exists in vivo. Furthermore, the administration of in vitro-generated Tol-DCs or Treg cells prevented rejection of allografts. Co-administration of Tol-DC and Treg synergized efficacy of promoting allograft survival heart transplantation. The present study highlights the therapeutic potential of preventing allograft rejection using in vitro-generated Tol-DCs and Treg.

Published

2008

10. Immune modulation and tolerance induction by RelB-silenced dendritic cells through RNA interference.

Author

Li M, Zhang X, Zheng X, Lian D, Zhang ZX, Ge W, Yang J, Vladau C, Suzuki M, Chen D, Zhong R, Garcia B, Jevnikar AM, and Min WP

Subjects

Adoptive Transfer, Animals, Dendritic Cells drug effects, Dendritic Cells transplantation, Heart Transplantation, Lymphocyte Activation, Mice, Mice, Inbred Strains, RNA, Small Interfering pharmacology, T-Lymphocytes, Regulatory immunology, Transcription Factor RelB genetics, Dendritic Cells immunology, Graft Rejection prevention & control, Immunosuppression Therapy methods, RNA Interference, Transcription Factor RelB antagonists & inhibitors, Transplantation Tolerance genetics

Abstract

Dendritic cells (DC), the most potent APCs, can initiate the immune response or help induce immune tolerance, depending upon their level of maturation. DC maturation is associated with activation of the NF-kappaB pathway, and the primary NF-kappaB protein involved in DC maturation is RelB, which coordinates RelA/p50-mediated DC differentiation. In this study, we show that silencing RelB using small interfering RNA results in arrest of DC maturation with reduced expression of the MHC class II, CD80, and CD86. Functionally, RelB-silenced DC inhibited MLR, and inhibitory effects on alloreactive immune responses were in an Ag-specific fashion. RelB-silenced DC also displayed strong in vivo immune regulation. An inhibited Ag-specific response was seen after immunization with keyhole limpet hemocyanin-pulsed and RelB-silenced DC, due to the expansion of T regulatory cells. Administration of donor-derived RelB-silenced DC significantly prevented allograft rejection in murine heart transplantation. This study demonstrates for the first time that transplant tolerance can be induced by means of RNA interference using in vitro-generated tolerogenic DC.

Published

2007

11. Identification of viruses in patients with postviral olfactory dysfunction.

Author

Suzuki M, Saito K, Min WP, Vladau C, Toida K, Itoh H, and Murakami S

Subjects

Adolescent, Adult, Aged, Child, Coronavirus isolation & purification, Female, Follow-Up Studies, Herpesvirus 4, Human isolation & purification, Humans, Male, Middle Aged, Mucus virology, Nasal Obstruction physiopathology, Nasal Obstruction virology, Olfaction Disorders physiopathology, Respiratory Tract Infections virology, Respirovirus isolation & purification, Rhinitis virology, Rhinometry, Acoustic, Serotyping, Smell physiology, Olfaction Disorders virology, Rhinovirus classification

Abstract

Objective: Causative viruses of postviral olfactory dysfunction (PVOD) have not yet been identified. The aim of this study was to investigate causative viruses in patients with PVOD., Study Design and Methods: Nasal discharge was collected from 24 patients with PVOD. We investigated the presence of 10 viruses in nasal discharge and examined the time course, with regard to changes in olfactory dysfunction and nasal obstruction in patients with PVOD, using questionnaires, acoustic rhinometry, and olfactory tests., Results: Rhinoviruses were detected in 10 patients by electrophoresis. Rhinoviruses were also confirmed in four patients by nucleotide sequences. Viral serotypes were identified to be human rhinovirus (HRV)-40, HRV-75, HRV-78, and HRV-80. One of the four patients complained of anosmia, whereas another complained of dysosmia. Olfactory testing did not show significant improvement at 4, 8, 11, and 24 weeks after the first visit in the four patients, although results of acoustic rhinometry significantly improved. Two of the four patients complained of olfactory dysfunction even 6 months after the first visit. Coronavirus and parainfluenza virus were detected in one patient each, and Epstein-Barr viruses were detected in three patients., Conclusions: This study for the first time detected rhinovirus, coronavirus, parainfluenza virus, and Epstein-Barr virus in nasal discharge of patients with PVOD. Furthermore, the present study suggests that rhinoviruses can cause olfactory dysfunction through mechanisms other than nasal obstruction and that rhinoviruses can induce various severities and different time courses of olfactory dysfunction.

Published

2007

12. Prevention of renal ischemic injury by silencing the expression of renal caspase 3 and caspase 8.

Author

Zhang X, Zheng X, Sun H, Feng B, Chen G, Vladau C, Li M, Chen D, Suzuki M, Min L, Liu W, Garcia B, Zhong R, and Min WP

Subjects

Animals, Caspase 3 genetics, Caspase 8 genetics, Kidney enzymology, Kidney pathology, Mice, Mice, Inbred Strains, RNA, Messenger analysis, RNA, Small Interfering genetics, Reperfusion Injury pathology, Up-Regulation drug effects, Caspase Inhibitors, Kidney drug effects, RNA, Small Interfering pharmacology, Reperfusion Injury prevention & control

Abstract

Background: Apoptotic pathways mediated by caspases play a critical role in renal ischemia-reperfusion injury (IRI). Downregulation of the caspase cascade, using small interfering RNA (siRNA) to silence the expression of caspase 3 and caspase 8, may have substantial therapeutic potential for limiting renal injury., Methods: IRI was induced in mice by clamping of the renal vein and artery for 25 or 35 min at 37 degrees C. Caspase 3 and caspase 8 (caspase 3/8) siRNA was administrated by hydrodynamic injection. Quantitative polymerase chain reaction (PCR) and immunohistochemistry were used to analyze the gene silencing efficacy, and the therapeutic effects of siRNA were evaluated by renal function analysis, histological examination, and overall survival of mice suffering from IRI., Results: In this study, we have shown, using quantitative PCR, that IRI is associated with increased levels of renal caspase 3/8 mRNA. Mice treated with caspase 3/8 siRNA showed a significant down-regulation in kidney expression of caspase 3/8 at both, transcriptional and protein levels. Kidney function in IRI was protected by siRNA therapy, as levels of blood urea nitrogen and creatinine were significantly reduced in mice treated with siRNA. Histological examination demonstrated that tissue injury caused by IRI was significantly reduced as a result of caspase 3/8 siRNA treatment. Furthermore, survival data showed that more than 70% of mice in siRNA-treated groups survived until the end of the eight-day observation period., Conclusion: Herein, we have demonstrated the therapeutic potential of using siRNA to knock down the expression of caspases and prevent acute renal injury.

Published

2006

13. Protection of renal ischemia injury using combination gene silencing of complement 3 and caspase 3 genes.

Author

Zheng X, Zhang X, Sun H, Feng B, Li M, Chen G, Vladau C, Chen D, Suzuki M, Min L, Liu W, Zhong R, Garcia B, Jevnikar A, and Min WP

Subjects

Animals, Caspase 3 genetics, Cells, Cultured, Complement C3 genetics, Genetic Therapy, Kidney pathology, Mice, RNA, Small Interfering administration & dosage, RNA, Small Interfering therapeutic use, Reperfusion Injury genetics, Reperfusion Injury pathology, Caspase Inhibitors, Complement C3 antagonists & inhibitors, Kidney blood supply, Kidney Transplantation, RNA Interference, Reperfusion Injury prevention & control

Abstract

Background: Ischemia/reperfusion (I/R) injury occurs in clinical kidney transplantation, which results in graft dysfunction and rejection. It has been documented that I/R injury is associated with complement activation and renal cell apoptosis. The purpose of this study was to develop a strategy to prevent I/R injury using small interfering RNA (siRNA) that target complement 3 (C3) and caspase 3 genes., Methods: siRNA-expression vectors were constructed to target C3 and caspase 3 genes. Gene silencing efficacy was assessed using real-time polymerase chain reaction. In vivo gene silencing was performed by hydrodynamic injection with C3 and caspase 3 siRNA. Renal I/R injury was induced through clamping the renal vein and artery for 25 min. I/R injury was evaluated using kidney histopathology, blood urea nitrogen (BUN), serum levels of creatinine, and survival., Results: Effective gene silencing was first confirmed in vitro. Notably upregulated expression of C3 and caspase 3 genes was observed from 2 to 48 hr after I/R injury, which were effectively and specifically inhibited by C3 and caspase 3 siRNA. In comparison with control mice, serum levels of creatinine and BUN were also significantly decreased in C3 and caspase 3 siRNA-treated mice. Furthermore, the therapeutic effect of siRNA was assessed in a severe, lethal I/R injury experiment, in which siRNA treatment significantly reduced mortality. Tissue histopathology showed an overall reduction in injury area in siRNA-treated mice., Conclusions: This is the first demonstration that renal I/R injury can be prevented through silencing the complement gene and apoptosis gene, highlighting the potential for siRNA-based clinical therapy.

Published

2006

14. Reinstalling antitumor immunity by inhibiting tumor-derived immunosuppressive molecule IDO through RNA interference.

Author

Zheng X, Koropatnick J, Li M, Zhang X, Ling F, Ren X, Hao X, Sun H, Vladau C, Franek JA, Feng B, Urquhart BL, Zhong R, Freeman DJ, Garcia B, and Min WP

Subjects

Animals, Apoptosis drug effects, Cell Line, Tumor, Genetic Therapy methods, Indoleamine-Pyrrole 2,3,-Dioxygenase drug effects, Mice, Mice, Inbred BALB C, Mice, Inbred C57BL, Neoplasms drug therapy, Neoplasms enzymology, Neoplasms, Experimental drug therapy, RNA Interference, RNA, Small Interfering therapeutic use, T-Lymphocytes cytology, T-Lymphocytes drug effects, T-Lymphocytes immunology, Tryptophan metabolism, Tumor Burden drug effects, Immune Tolerance, Indoleamine-Pyrrole 2,3,-Dioxygenase immunology, Neoplasms immunology, RNA, Small Interfering pharmacology

Abstract

Tumor-derived immune suppression is a major impediment to successful immune/gene cancer therapy. In the present study, we describe a novel strategy to disrupt tumor-derived immune suppression by silencing a tolerogenic molecule of tumor origin, IDO, using small interfering RNA (siRNA). Silencing of IDO in B16F10 cells in vitro using IDO-siRNA prevented catabolism of tryptophan and inhibited apoptosis of T cells. IDO-siRNA treatment of B16F10 cells in vitro inhibited subsequent growth, tumor formation, and the size of tumor formed, by those cells when transplanted into host mice. In vivo treatment of B16F10 tumor-bearing mice successfully postponed tumor formation time and significantly decreased tumor size. Furthermore, in vivo IDO-siRNA treatment resulted in recovery of T cells responses and enhancement of tumor-specific killing. Thus, silencing IDO may break tumor-derived immune suppression. These data indicate that RNA interference has potential to enhance cancer therapy by reinstalling anticancer immunity.

Published

2006

15. Preventing autoimmune arthritis using antigen-specific immature dendritic cells: a novel tolerogenic vaccine.

Author

Popov I, Li M, Zheng X, San H, Zhang X, Ichim TE, Suzuki M, Feng B, Vladau C, Zhong R, Garcia B, Strejan G, Inman RD, and Min WP

Subjects

Animals, Arthritis, Experimental pathology, Autoimmune Diseases immunology, Autoimmune Diseases pathology, Autoimmune Diseases prevention & control, Cell Differentiation drug effects, Cell Differentiation immunology, Cell Division drug effects, Cell Division immunology, Cells, Cultured, Collagen Type II immunology, Dendritic Cells cytology, Dendritic Cells drug effects, Guanidines pharmacology, Immunosuppressive Agents pharmacology, Lymphocyte Culture Test, Mixed, Male, Mice, Mice, Inbred BALB C, Mice, Inbred DBA, T-Lymphocytes immunology, Arthritis, Experimental immunology, Arthritis, Experimental prevention & control, Dendritic Cells immunology, Immune Tolerance immunology, Vaccines immunology

Abstract

Conventional treatments for autoimmune diseases have relied heavily on nonspecific immune suppressants, which possess a variety of adverse effects without inhibiting the autoimmune process in a specific manner. In the present study we demonstrate the effectiveness of antigen-specific, maturation-resistant, tolerogenic dendritic cells (DC) in suppressing collagen-induced arthritis, a murine model of rheumatoid arthritis. Treatment of DC progenitors with the NF-kappaB inhibiting agent LF 15-0195 (LF) resulted in a population of tolerogenic DC that are characterized by low expression of MHC class II, CD40, and CD86 molecules, as well as by poor allostimulatory capacity in a mixed leukocyte reaction. Administering LF-treated DC pulsed with keyhole limpet hemocyanin antigen to naïve mice resulted hyporesponsiveness specific for this antigen. Furthermore, administration of LF-treated DC to mice with collagen-induced arthritis resulted in an improved clinical score, in an inhibited antigen-specific T-cell response, and in reduced antibody response to the collagen. The efficacy of LF-treated DC in preventing arthritis was substantiated by histological examination, which revealed a significant decrease in inflammatory cell infiltration in the joints. In conclusion, we demonstrate that in vitro-generated antigen-specific immature DC may have important potential as a tolerogenic vaccine for the treatment of autoimmune arthritis.

Published

2006

16. Integrin alpha2beta1 modulates EGF stimulation of Rho GTPase-dependent morphological changes in adherent human rhabdomyosarcoma RD cells.

Author

Leabu M, Uniyal S, Xie J, Xu YQ, Vladau C, Morris VL, and Chan BM

Subjects

Animals, Cell Line, Tumor, ErbB Receptors genetics, ErbB Receptors metabolism, Humans, Integrin alpha2beta1 genetics, Microscopy, Video, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, cdc42 GTP-Binding Protein genetics, cdc42 GTP-Binding Protein metabolism, rho GTP-Binding Proteins genetics, Cell Adhesion physiology, Cell Shape, Epidermal Growth Factor metabolism, Integrin alpha2beta1 metabolism, Rhabdomyosarcoma pathology, rho GTP-Binding Proteins metabolism

Abstract

The ability of cells to undergo shape changes is essential for diverse cellular functions including cell growth, differentiation, and movement. The present study examines how an integration of the function of alpha2beta1 integrin with that of the receptor for epidermal growth factor (EGFR) modulates EGF-stimulated morphological changes in human rhabdomyosarcoma RD transfectant cells. Upon EGF stimulation, RD transfectant cells that lacked alpha2beta1 integrin expression (RDpF) underwent contraction; in contrast, expression of alpha2beta1 on RD cells (RDX2C2) resulted in transient cell spreading. Integrin alpha2 cytoplasmic domain played a critical role in the observed alpha2beta1-mediated conversion from a cell rounding to a cell spreading phenotype. Thus, the expression of an alpha2 cytoplasmic domain deletion variant (X2C0) or a chimeric alpha2beta1 containing the cytoplasmic domain of alpha4 (X2C4) or alpha5 (X2C5), instead of alpha2, failed to mediate spreading upon EGF stimulation. Using dominant negative (DN) mutants of RhoGTPases, results revealed that RhoA activation was required for both EGF-stimulated responses of cell rounding and spreading, Cdc42 functioned in the re-spreading of cells after undergoing EGF-stimulated contraction, and Rac1 was required in alpha2beta1-mediated RD cell spreading. Therefore, alpha2beta1 integrin function can switch the Rho GTPase-dependent cell shape changes in RD cells from an EGF-stimulated cell contraction to a spreading morphology. Together, results show that integrin alpha2 cytoplasmic domain plays an indispensable role in the ability of integrin alpha2beta1 to modulate EGF stimulation of Rho-GTPase-dependent morphological changes in RD cells., (2004 Wiley-Liss, Inc.)

Published

2005