Influence of the integrin alpha-1 subunit and its relationship with high-fat diet upon extracellular matrix synthesis in skeletal muscle and tendon.

Integrins are important for mechanosensation in tissue and play, together with nutrition, a role in regulating extracellular matrix (ECM) in skeletal muscle and tendon. Integrin receptors are dimers that consist of an α and ß subunit and bridge extracellular and intracellular signals. The present study investigates whether the deletion of the integrin receptor α1 subunit influences collagen and other matrix proteins in the musculotendinous tissue and whether it causes any compensatory changes in other integrin subunits in C57BL/6J mice. In addition, we study whether a high-fat diet (HFD) influences these responses in muscle or tendon. Mice on a HFD had a higher number of non-enzymatic cross-links in skeletal muscle ECM and increased gene expression of collagen and other extracellular matrix proteins. In contrast to gene expression, total collagen protein content was decreased by HFD in the muscle with no change in tendon. Integrin α1 subunit knockout resulted in a decrease of collagen type I and III, TGF-ß1 and IGF-1 gene expression in muscle of HFD mice but did not affect total collagen protein compared with wild-type (WT) littermates in either muscle or tendon. There was no compensatory increase in the genes that express other integrin subunits. In conclusion, HFD induced a significant increase in expression of ECM genes in muscle. On the protein level, HFD resulted in a lower collagen content in muscle. Tendons were unaffected by the diet. Deletion of the integrin α1 subunit did not affect collagen protein or gene expression in muscle or tendon.

Constitutive Activation of Natural Killer Cells in Primary Biliary Cholangitis.

Natural killer (NK) cells are innate immune cells that interface with the adaptive immune system to generate a pro-inflammatory immune environment. Primary Biliary Cholangitis (PBC) is a hepatic autoimmune disorder with extrahepatic associations including systemic sclerosis, Sjogren's syndrome and thyroiditis. Immunogenetic studies have identified polymorphisms of the IL-12/STAT4 pathway as being associated with PBC. As this pathway is important for NK cell function we investigated NK cells in PBC. Circulating NK cells from individuals with PBC were constitutively activated, with higher levels of CD49a and the liver-homing marker, CXCR6, compared to participants with non-autoimmune chronic liver disease and healthy controls. Stimulation with minimal amounts of IL-12 (0.005 ng/ml) led to significant upregulation of CXCR6 (p < 0.005), and enhanced IFNγ production (p < 0.02) on NK cells from PBC patients compared to individuals with non-autoimmune chronic liver disease, indicating dysregulation of the IL-12/STAT4 axis. In RNAseq studies, resting NK cells from PBC patients had a constitutively activated transcriptional profile and upregulation of genes associated with IL-12/STAT4 signaling and metabolic reprogramming. Consistent with these findings, resting NK cells from PBC patients expressed higher levels of pSTAT4 compared to control groups (p < 0.001 vs. healthy controls and p < 0.05 vs. liver disease controls). In conclusion NK cells in PBC are sensitive to minute quantities of IL-12 and have a "primed" phenotype. We therefore propose that peripheral priming of NK cells to express tissue-homing markers may contribute to the pathophysiology of PBC.

Proliferative capacity exhibited by human liver-resident CD49a+CD25+ NK cells.

The recruitment and retention of Natural Killer (NK) cells in the liver are thought to play an important role during hepatotropic infections and liver cirrhosis. The aims of this study were to determine differences between liver-derived and peripheral blood-derived NK cells in the context of liver inflammation and cirrhosis. We conducted a prospective dual-center cross-sectional study in patients undergoing liver transplantation or tumor-free liver resections, in which both liver tissue and peripheral blood samples were obtained from each consenting study participants. Intrahepatic lymphocytes and PBMCs were stained, fixed and analyzed by flow cytometry. Our results showed that, within cirrhotic liver samples, intrahepatic NK cells were particularly enriched for CD49a+ NK cells when compared to tumor-free liver resection samples. CD49a+ liver-derived NK cells included populations of cells expressing CD25, CD34 and CXCR3. Moreover, CD49a+CD25+ liver-derived NK cells exhibited high proliferative capacity in vitro in response to low doses of IL-2. Our study identified a specific subset of CD49a+CD25+ NK cells in cirrhotic livers bearing functional features of proliferation.

Alpha1 and beta1 integrins enhance the homing and differentiation of cultured prostate cancer stem cells.

CD133(+) prostate cancer stem cells (PCSCs) have recently been identified in human prostate cancer tissues. The present study reports the integrin profile of prostate cancer progenitor cells and the role of alpha(1) and beta(1) integrins in the homing and differentiation of PCSCs in vitro. PCSCs were isolated from the tissue specimens of patients with prostate cancer and the expression of surface integrins and adhesion patterns were determined. Our analysis of the expression of surface integrins and their adhesion patterns of prostate cancer stem cells derived from prostate cancer tissues revealed that the levels of beta(1) and alpha(2)beta(1) integrins were significantly higher (P < 0.05) than those of the other integrins. By contrast, peripheral blood-derived CD133(+) cells from prostate cancer patients showed a high level of expression (P < 0.01) of alpha(2)beta(1), alpha(v)beta(3), alpha(v)beta(5), beta(1) and alpha(1) integrins and a minimal expression of alpha(4)beta(1) integrins. Moreover, CD133(+) cells derived from both prostate cancer tissues and peripheral blood exhibited an increased degree of attachment to extracellular matrix proteins (P < 0.001) and a high expression level of alpha(2)beta(1) integrin. In vitro experiments using blocking antibodies indicated that alpha(1) and beta(1) integrins have a role in the homing and differentiation of PCSCs. This is the first report to suggest the importance of integrins in mediating the homing and differentiation of PCSCs.

Activation of the FAK-src molecular scaffolds and p130Cas-JNK signaling cascades by alpha1-integrins during colon cancer cell invasion.

Increased src tyrosine kinase expression and activity has been associated with colon cancer cell invasion and survival. Several signaling pathways are involved in the oncogenic activation of src during the adenoma to carcinoma progression and cellular invasion. In the present study, the synthetic ether lipid analog ET-18-OMe was shown to promote invasion of HCT-8/S11 colon cancer cells into collagen type I through the concomitant activation of src by phosphorylation at Tyr416 (5-30 min) in alpha1-integrin immunoprecipitates containing the integrin binding proteins talin and paxillin, as well as the phoshorylated and activated forms of focal adhesion kinase (FAK) at Tyr397 (a FAK kinase activation signal), Tyr576 and Tyr861. This was associated with the lateral redistribution of alpha1-integrins in focal aggregates and persistent activation of the p130Cas/JNK pathways at 5-30 min, with the subsequent induction and activation of the matrix metalloproteinases MMP-2 and MMP-9 (2-12 h). These activated molecular scaffolds and signaling cascades were not observed in immunoprecipitates of alpha2- and beta1-integrins, and tetraspanin CD9, an invasion and metastasis suppressor linked to integrins and FAK signaling. Our data demonstrate that the lateral redistribution and clustering of alpha1-integrins results in the recruitment of the FAK/src motility-promoting signaling complex involved in cancer cell invasion. Disruption of this proinvasive pathway was accomplished by the dominant negative mutant of src (K295R, kinase dead), src pharmacological inhibitor (PP1) and alpha1-integrin function blocking antibodies. These findings support the notion that the alpha1-integrin- and src-dependent signalosome is a relevant therapeutic target against tumor progression in colon cancer patients.

The effect of blockade of tumor necrosis factor alpha on VLA-1+ T-cells in rheumatoid arthritis patients.

The alpha1beta1 integrin, very late antigen (VLA)-1, characterizes collagen adherent interferon (IFN) gamma producing memory T cells in inflamed synovium. We now report that the mean percentage of VLA-1+ T cells is significantly lower among peripheral blood mononuclear cells of rheumatoid patients responsive to antitumor necrosis factor (TNF) alpha therapy than of those with active disease not receiving therapy. Neutralization of TNFalpha during in vitro polyclonal activation of VLA-1- T cells reduced differentiation to expression of VLA-1 and inhibited secretion of IFNgamma, but did not affect integrin expression on in vivo differentiated VLA-1+ T cells. Moreover, synovial fluids of patients relapsing during and after therapy were enriched in VLA-1+ T cells and lines derived from VLA-1+ T cells in peripheral blood of treated patients retained collagen binding and secreted IFN gamma. Thus, whereas therapy decreases VLA-1+ T cells in rheumatoid arthritis patients, a subset is resistant and contributes to residual and recurring inflammation.

Stem cell-derived Sca-1+ progenitors differentiate into smooth muscle cells, which is mediated by collagen IV-integrin alpha1/beta1/alphav and PDGF receptor pathways.

Embryonic stem (ES) cells can differentiate into smooth muscle cells (SMCs) that can be used for tissue engineering and repair of damaged organs. However, little is known about the molecular mechanisms of differentiation in these cells. In the present study, we found collagen IV can promote ES cells to differentiate into stem cell antigen-1-positive (Sca-1(+)) progenitor cells and SMCs. Pretreatment of ES cells with antibodies against collagen IV significantly inhibited SMC marker expression. To further elucidate the effect of collagen IV on the induction and maintenance of SMC differentiation, Sca-1(+) progenitor cells were isolated with magnetic beads, placed in collagen-IV-coated flasks, and cultured in differentiation medium with or without platelet-derived growth factor (PDGF)-BB for 6-90 days. Both immunostaining and fluorescence-activated cell sorter analyses revealed that the majority of these cells were positive for SMC-specific markers. Pretreatment of Sca-1(+) progenitors with antibodies against integrin alpha(1), alpha(v), and beta(1), but not beta(3), inhibited focal adhesion kinase (FAK) and paxillin phosphorylation and resulted in a marked inhibition of SMC differentiation. Various tyrosine kinase inhibitors, and specific siRNA for phosphatidylinositol 3-kinase (PI 3-kinase) and PDGF receptor-beta significantly inhibited SMC marker expression. Taken together, we demonstrate for the first time that collagen IV plays a crucial role in the early stage of SMC differentiation and that integrin (alpha(1), beta(1), and alpha(v))-FAK-PI 3-kinase-mitogen-activated protein kinase and PDGF receptor-beta signaling pathways are involved in SMC differentiation.

Crucial role of fibroblast integrins alpha2 and beta1 in maintaining the structural and mechanical properties of the skin.

BACKGROUND: In vivo functions of integrins in dermis have been investigated using several types of genetically integrin deficient mice. However, there are few studies to clarify actual in vivo functions of integrins in the dermis using normal type animals. OBJECTIVE: We investigated the actual in vivo functions of integrins in maintaining structural and mechanical properties in the normal skin by means of blocking interactions between fibroblasts and the extracellular matrix (ECM). METHODS: Intradermal injection of anti-integrin alpha2 or beta1 antibody into hairless rat skin was used to block the function of integrins. The dermal thickness was measured by an ultrasound scanner and the elastic properties of the skin was measured by Cutometer. RESULTS: Blocking integrin alpha2 or beta1 alone caused a moderate increase in dermal thickness. Blocking of integrins alpha1, alphaL or beta2 alone or blocking both integrins alpha1 and beta1 did not cause any change in the skin. However, blocking of both integrins alpha2 and beta1 caused a significant increase in dermal thickness accompanied by a marked loss of elastic properties. A clear change of the skin was observed within several minutes after injection, and continued for several hours. Treatment of human skin fibroblasts in collagen gel lattices with a mixture of anti-integrin alpha2 and beta1 antibodies in vitro caused marked and rapid morphological changes, but significant change was not observed with a treatment of alpha1, alpha2 or beta1 antibody alone. CONCLUSION: These results indicate that simultaneous functioning of integrins alpha2 and beta1 in fibroblasts play a crucial role in maintaining the structural and mechanical properties in the skin, which suggests that fibroblasts actively regulate collagen networks via these integrins.

Increased plasma MMP9 in integrin alpha1-null mice enhances lung metastasis of colon carcinoma cells.

Inhibitors of matrix metalloproteinases (MMPs) were developed as anticancer agents based on the observation that MMPs facilitate local tumor spread and metastasis by promoting matrix degradation and cell migration. Unfortunately, these inhibitors were unsuccessful in the clinical treatment of several cancers, including lung cancer. A possible reason contributing to their failure is that MMP activity is critical for the generation of inhibitors of tumor angiogenesis, including angiostatin. Thus, MMPs might play opposing roles in tumor vascularization and invasion. To determine which effect of elevated MMP levels dominates in the progression of metastatic cancer, experimental lung metastasis assays were performed in integrin alpha1-null mice, a genetic model for increased plasma levels of MMP9 and MMP9-generated angiostatin (Pozzi et al., Proc. Natl. Acad. Sci. USA 2000;97:2202-7). We show that while the number of lung colonies in integrin alpha1-null mice was significantly increased compared to their wild-type counterparts, tumor volume was markedly reduced. In vivo treatment with the MMP inhibitor doxycycline resulted in a significant decrease in the number of lung colonies in both genotypes, but the tumors that formed were bigger and more vascularized. Increased tumor vascularization paralleled decreased plasma levels of MMP9 and consequent decreased angiostatin synthesis. These results demonstrate that while inhibition of MMPs prevents and/or reduces tumor invasion and lung metastasis, it has the paradoxical effect of increasing the size and vascularization of metastatic tumors due to decreased generation of inhibitors of endothelial cell proliferation. The continued growth of these large well-vascularized tumors may explain the poor efficacy of MMP inhibitors in lung cancer clinical trials.

VEGF-A promotes tissue repair-associated lymphatic vessel formation via VEGFR-2 and the alpha1beta1 and alpha2beta1 integrins.

Vascular endothelial growth factor-A (VEGF-A) is strongly up-regulated in wounded cutaneous tissue and promotes repair-associated angiogenesis. However, little is known about its role in lymphatic regeneration of the healing skin. We studied wound healing in transgenic mice that overexpress VEGF-A specifically in the epidermis and in wild-type mice in the absence or presence of inhibitors of VEGF-A signaling. Surprisingly, transgenic overexpression of VEGF-A in the skin promoted lymphangiogenesis at the wound healing site, whereas systemic blockade of VEGFR-2 prevented lymphatic vessel formation. Studies in cultured lymphatic endothelial cells revealed that VEGF-A induced expression of the alpha1 and alpha2 integrins, which promoted their in vitro tube formation and their haptotactic migration toward type I collagen. VEGF-A-induced lymphatic endothelial cord formation and haptotactic migration were suppressed by anti-alpha1 and anti-alpha2 integrin blocking antibodies, and systemic blockade of the alpha1 and alpha2 integrins inhibited VEGF-A-driven lymphangiogenesis in vivo. We propose that VEGF-A promotes lymphatic vasculature formation via activation of VEGFR-2 and that lineage-specific differences of integrin receptor expression contribute to the distinct dynamics of wound-associated angiogenesis and lymphangiogenesis.

Fibroblast subpopulations in intra-oral wound healing.

The objective of this study was to characterize fibroblasts at sequential time points during intra-oral wound healing in the rat. Experimental wounds were made at several time points in the mucoperiosteum of the palate of 35-day-old Wistar rats. Fibroblasts were cultured from the biopsies under standard conditions for the same number of passages. The expression of the integrin subunits alpha 1, alpha 6, and beta 1; and the intermediate filaments alpha-smooth muscle actin and vimentin were analyzed by flow cytometry. Western blot analysis was performed at 0, 8, and 60 days postwounding to confirm the expression of both intermediate filaments. The phenotypic profiles of fibroblasts cultured from subsequent stages in the wound healing process differed considerably. We conclude that distinct fibroblast phenotypes can be isolated from different stages in wound healing. These phenotypes remained stable during in vitro culturing. In addition, cryosections of the wound areas were made at identical time points and were immunohistochemically stained for the same antigens. The immunohistochemical staining correlated well to the flow-cytometric data. These results suggest the occurrence of multiple subpopulations of fibroblasts with a specialized function during wound healing. We hypothesize that undesirable consequences of wound healing might be prevented through the modulation of specific fibroblast subpopulations.

Analysis of cell-free human alpha1 integrin with a monoclonal antibody to the I-domain: detection in ocular fluid and function as an adhesion substrate.

The alpha1 beta1 integrin, an inserted (1) domain containing collagen receptor, is expressed in the cell surface membrane of normal and malignant cells, and may play a role in their migration through tissues or in metastatic spread. Here we report that a functional anti-human alpha1beta1 integrin monoclonal antibody (mAb) (1B3.1) directly and specifically binds plastic bound recombinant human alpha1 I-domain protein containing the collagen binding site. Detection was diminished by acidification of the I-domain protein but was enhanced by increasing concentrations of Mg2+ cation. Furthermore, we detected binding of the mAb to proteins from the ocular fluids of 6 patients, with the highest concentration, corresponding to 22.1 ng/ml of I-domain, found in a sample from the eye of a patient with metastatic lung adenocarcinoma. Interestingly, we found that both SKNSH neuroblastoma cells and virally transformed human T cells adhered specifically to plastic wells coated with either immobilized collagen IV or alpha1 I-domain. MAb I B3.1 inhibited adhesion to collagen IV but not to immobilized I-domain. These results suggest a novel function for cell free alpha1 I-domain as a substrate for cellular adhesion, which may have relevance in tumor spread in vivo.