Victor Koteliansky

The Collagen Binding α1β1 Integrin VLA-1 Regulates CD8 T Cell-Mediated Immune Protection against Heterologous Influenza Infection

A common feature of many infections is that many pathogen-specific memory T cells become established in diverse nonlymphoid tissues. A mechanism that promotes the retention and survival of the memory T cells in diverse tissues has not been described. Our studies show that the collagen binding α1β1 integrin, VLA-1, is expressed by the majority of influenza-specific CD8 T cells recovered from nonlymphoid tissues during both the acute and memory phases of the response. Antibody treatment or genetic deficiency of VLA-1 decreased virus-specific CTL in the lung and other nonlymphoid tissues, and increased them in the spleen. In spite of the increase in the spleen, secondary heterosubtypic immunity against flu was compromised. This suggests that VLA-1 is responsible for retaining protective memory CD8 T cells in the lung and other tissues via attachment to the extracellular matrix.

Reduction of bleomycin induced lung fibrosis by transforming growth factor β soluble receptor in hamsters

BACKGROUND Transforming growth factor β (TGF-β) is a key mediator of collagen synthesis in the development of lung fibrosis. It has previously been shown that the administration of TGF-β antibody and TGF-β binding proteoglycan, decorin, reduced bleomycin (BL) induced lung fibrosis in animals. The present study was carried out to investigate whether intratracheal instillation of TGF-β soluble receptor (TR) would minimise the BL induced lung fibrosis in hamsters. METHODS The effect of a recombinant TR (TGFβRII) on the lung collagen accumulation was evaluated in a BL hamster model of pulmonary fibrosis. Animals were divided into four groups and intratracheally injected with saline or BL at 6.5 U/4 ml/kg followed by intratracheal instillation of phosphate buffered saline (PBS) or 4 nmol TR in 0.3 ml twice a week. Twenty days after the first intratracheal instillation the hamsters were killed for bronchoalveolar lavage (BAL) fluid, biochemical, and histopathological analyses. RESULTS Treatment of hamsters with TR after intratracheal instillation of BL significantly reduced BL induced lung fibrosis as shown by decreases in the lung hydroxyproline level and prolyl hydroxylase activity, although they were still significantly higher than those of the saline control. Histopathological examination showed a considerable decrease in BL induced fibrotic lesions by TR treatment. However, TR did not prevent the BL induced increases in total cells and protein in the BAL fluid. CONCLUSIONS These results suggest that TR has antifibrotic potential in vivo and may be useful in the treatment of fibrotic diseases where increased TGF-β is associated with excess collagen accumulation.

The alpha1beta1 integrin is expressed during neointima formation in rat arteries and mediates collagen matrix reorganization.

Remodeling of the extracellular matrix by activated mesenchymal cells (myofibroblasts) is a critical aspect of wound repair in all adult organs. Collagen-dependent gel contraction, a process requiring integrin function, is an established in vitro assay thought to mimic in vivo matrix remodeling. Numerous data have implicated the alpha2beta1 integrin in various cell types as the primary collagen receptor responsible for collagen gel contraction. However, evidence from the literature suggests that the major collagen binding integrin expressed on mesenchymally derived cells in situ is the alpha1beta1 integrin, not the alpha2beta1 integrin. In this report, we use a rat vascular injury model to illustrate that the alpha1beta1 integrin is the major collagen receptor expressed on vascular smooth muscle cells after injury. Using two smooth muscle cell lines, expressing either the alpha1beta1 integrin alone or both the alpha1beta1 and alpha2beta1 integrins, along with Chinese hamster ovary cells transfected with the alpha1 integrin, we demonstrate that alpha1beta1 supports not only collagen-dependent adhesion and migration, but also gel contraction. These data suggest that in vivo the alpha1beta1 integrin is a critical collagen receptor on mesenchymally derived cells potentially involved in matrix remodeling after injury.

Importance of Innate Immunity and Collagen Binding Integrin α1β1 in TNBS-Induced Colitis

Inflammation occurs in the context of integrin-mediated adhesive interactions of cells with their extracellular matrix environment. We investigated the role of the collagen binding integrin alpha1beta1 in a model of colitis. alpha1beta1 was expressed on lamina propria T cells and monocytes during disease. Both alpha1 deficiency and anti-alpha1 mAb treatment (prophylactic and therapeutic) protected against colitis. In vivo alpha1beta1 blockade improved macroscopic and histologic scores, decreased inflammatory cytokine production, and profoundly affected the ability of lamina propria mononuclear cells to proliferate and produce IFN-gamma in vitro. Development and alpha1-mediated inhibition of colitis can be lymphocyte independent, suggesting that activated monocytes also represent a key alpha1beta1-expressing cell type involved in colitis. These results underscore the importance of innate immunity and, specifically, of leukocyte/matrix interactions in regulating local inflammatory responses.

Gene Profiling in Atherosclerosis Reveals a Key Role for Small Inducible Cytokines Validation Using a Novel Monocyte Chemoattractant Protein Monoclonal Antibody

Background—Pathological aspects of atherosclerosis are well described, but gene profiles during atherosclerotic plaque progression are largely unidentified. Methods and Results—Microarray analysis was performed on mRNA of aortic arches of ApoE−/− mice fed normal chow (NC group) or Western-type diet (WD group) for 3, 4.5, and 6 months. Of 10 176 reporters, 387 were differentially (>2×) expressed in at least 1 group compared with a common reference (ApoE−/−, 3- month NC group). The number of differentially expressed genes increased during plaque progression. Time-related expression clustering and functional grouping of differentially expressed genes suggested important functions for genes involved in inflammation (especially the small inducible cytokines monocyte chemoattractant protein [MCP]-1, MCP-5, macrophage inflammatory protein [MIP]-1&agr;, MIP-1&bgr;, MIP-2, and fractalkine) and matrix degradation (cathepsin-S, matrix metalloproteinase-2/12). Validation experiments focused on the gene cluster of small inducible cytokines. Real-time polymerase chain reaction revealed a plaque progression–dependent increase in mRNA levels of MCP-1, MCP-5, MIP-1&agr;, and MIP-1&bgr;. ELISA for MCP-1 and MCP-5 showed similar results. Immunohistochemistry for MCP-1, MCP-5, and MIP-1&agr; located their expression to plaque macrophages. An inhibiting antibody for MCP-1 and MCP-5 (11K2) was designed and administered to ApoE−/− mice for 12 weeks starting at the age of 5 or 17 weeks. 11K2 treatment reduced plaque area and macrophage and CD45+ cell content and increased collagen content, thereby inducing a stable plaque phenotype. Conclusions—Gene profiling of atherosclerotic plaque progression in ApoE−/− mice revealed upregulation of the gene cluster of small inducible cytokines. Further expression and in vivo validation studies showed that this gene cluster mediates plaque progression and stability.

Transforming Growth Factor-Beta-Dependent Events in Vascular Remodeling following Arterial Injury

Constrictive remodeling has been identified as a major contributor to restenosis following angioplasty. Characterization of transforming growth factor-β (TGF-β)-mediated cellular events in the adventitia and their contribution to vascular remodeling, however, has not previously been studied in detail. The balloon catheter denudation model was performed on rat carotid artery, and groups of rats were treated with vehicle or a TGF-β inhibitor, a soluble TGF-β receptor type II (TGF-βR:Fc). Adventitial cell proliferation, which peaked 4 days after injury, was characterized by the de novo formation of several cell layers surrounding the outer adventitia and this process was not dependent upon TGF-β activity. These neoadventitial cells expressed an abundance of collagen type I and a fetal isoform of fibronectin containing the EIIIA domain, and the expression of both proteins was suppressed in the presence of TGF-βR:Fc. Lumenal narrowing was apparent 14 days after injury. Inhibition of TGF-β signaling promoted vessel enlargement. As a result, lumen size did not change despite neointima formation. In conclusion, adventitial fibrosis with abundant collagen matrix deposition but not adventitial cell proliferation is dependent upon endogenous TGF-β activity. Furthermore, inhibition of TGF-β signaling prevents injury-induced reduction in lumen area by promoting vessel enlargement.

A COMPARATIVE MOLECULAR ANALYSIS OF FOUR RAT SMOOTH MUSCLE CELL LINES

SummaryTranscriptional regulation of smooth muscle cell (SMC) differentiation is a rapidly growing area of interest that has relevance for understanding intimal disease. Despite the wealth of data accumulating in vitro, however, no study has compared the cell-specific marker profile, transfectability, promoter activity, and growth characteristics among several SMC culture systems. Accordingly, we performed a comprehensive analysis of the marker profile, growth properties, transfectability, and SMC promoter activity in four rat SMC lines (A7r5, adult and pup aortic, and PAC1). Despite alterations in chromosomal number and structure, A7r5, adult aortic, and PAC1 cells express all SMC markers studied including SM α-actin, SM calponin, SM22, tropoelastin, and to a lesser extent, SM myosin heavy chain (SMMHC). In contrast, pup aortic cells express very low or undetectable levels of all the above markers except tropoelastin. Adult aortic, pup, and PAC1 cells display similar growth curves and levels of proto-oncogene transcripts, whereas those in the A7r5 line are comparatively less. All cell lines studied except pup cells show expression of SMC differentiation genes during active growth, indicating that growth and differentiation are not mutually exclusive in cultured smooth muscle. Transfection studies reveal dramatic differences in DNA uptake and SMC-restricted promoter activity between cell lines. Collectively, these results provide detailed information relating to SMC molecular biology in culture that should facilitate the selection of a cell line for studying the transcriptional regulatory mechanisms underlying SMC differentiation.

Transforming Growth Factor-β Initiates Wound Repair in Rat Liver through Induction of the EIIIA-Fibronectin Splice Isoform

A prominent feature of the hepatic response to injury is production of a fetal isoform of fibronectin, a splice variant containing the EIIIA region, which appears very early after injury and derives from sinusoidal endothelial cells. Previous studies have shown that it is instrumental in initiating the cellular response to injury, specifically the conversion of resting stellate cells to myofibroblast-like cells. The present work describes the regulation of this change in fibronectin expression. Using sinusoidal endothelial cells from normal or injured liver in primary culture, we show that exogenous transforming growth factor beta (TGFbeta) stimulates [EIIIA]Fn expression. To assess the role of TGFbeta in vivo, we used a chimeric IgG containing the extracellular portion of the TGFbeta type II receptor as a competitive inhibitor of the cytokine. Administered to animals at the time of injury, the inhibitor reduced expression of [EIIIA]Fn mRNA by 50% as compared to controls (P < 0.01). There was a corresponding decrease in [EIIIA]Fn protein production as judged by immunohistochemistry. Cell fractionation experiments indicated that the changes observed in whole-liver extracts were localized to sinusoidal endothelial cells. We conclude that TGFbeta initiates wound repair in part by stimulating endothelial expression of [EIIIA]Fn. Results with the soluble inhibitor of the TGFbeta type II receptor suggest a novel strategy for modulating wound repair in vivo.

Global expression analysis of extracellular matrix-integrin interactions in monocytes

Central to immune and inflammatory responses are the integrin-mediated adhesive interactions of cells with their extracellular matrix (ECM)-rich environment. Using a comprehensive and quantitative mRNA profiling technique, we analyzed the effect of ECM-induced attachment on monocyte gene expression, its regulation by growth factors, and the integrin specificity of this event. Adhesion of cells to fibronectin resulted in increased expression of a large number of genes, which was strongly potentiated by the presence of growth factors. Adhesion activated both the NF-kappaB and Jak/STAT pathways of gene transcription and increased expression of genes involved in inflammatory and immune responses, revealing the importance of ECM-integrin interactions in these processes.

Crystal structure of the α1β1 integrin I-domain: insights into integrin I-domain function

The α1β1 integrin is a major cell surface receptor for collagen. Ligand binding is mediated, in part, through a ∼200 amino acid inserted ‘I’‐domain contained in the extracellular part of the integrin α chain. Integrin I‐domains contain a divalent cation binding (MIDAS) site and require cations to interact with integrin ligands. We have determined the crystal structure of recombinant I‐domain from the rat α1β1 integrin at 2.2 Å resolution in the absence of divalent cations. The α1 I‐domain adopts the dinucleotide binding fold that is characteristic of all I‐domain structures that have been solved to date and has a structure very similar to that of the closely related α2β1 I‐domain which also mediates collagen binding. A unique feature of the α1 I‐domain crystal structure is that the MIDAS site is occupied by an arginine side chain from another I‐domain molecule in the crystal, in place of a metal ion. This interaction supports a proposed model for ligand‐induced displacement of metal ions. Circular dichroism spectra determined in the presence of Ca2+, Mg2+ and Mn2+ indicate that no changes in the structure of the I‐domain occur upon metal ion binding in solution. Metal ion binding induces small changes in UV absorption spectra, indicating a change in the polarity of the MIDAS site environment.