Defective integrin switch and matrix composition at alpha 7-deficient myotendinous junctions precede the onset of muscular dystrophy in mice

Force transmission at the myotendinous junction requires a strong link between the muscle cytoskeleton and the extracellular matrix. At the adult junction, two splice variants of the laminin-binding integrins, alpha7Abeta1D and alpha7Bbeta1D, are highly enriched. The alpha7 subunits are critical for the integrity of the junctional sarcolemma because integrin alpha7-deficient mice develop muscular dystrophy, primarily affecting this site of the muscle. Here, we report that beta1D integrin coimmunoprecipitates and colocalizes with the alpha5 subunit at alpha7-deficient junctions, but does not associate with alpha3, alpha6 or alphav integrins. By immunogold labelling we show that the basement membranes of integrin alpha7-deficient muscles recruit abnormally high levels of fibronectin, the ligand of alpha5beta1D. Finally, we demonstrate that alpha5beta1D is down-regulated at the normal postnatal junction and is displaced by alpha7beta1D. These results suggest that the alpha7 subunit is implicated in the down-regulation of alpha5beta1D and in the removal of fibronectin from the maturing myotendinous junction, thus providing an alpha7beta1D-based link to laminin. We propose that the persistence of alpha5beta1D in alpha7-deficient mice is not compatible with normal muscle function and leads to muscle wasting.     

Tonic protein kinase A activity maintains inactive beta2 integrins in unstimulated neutrophils by reducing myosin light-chain phosphorylation: role of myosin light-chain kinase and Rho kinase

Activation of beta2 integrins is necessary for neutrophil adhesion and full activation of neutrophil effector functions. We demonstrated previously that inhibition of protein kinase A (PKA) activity in quiescent neutrophils is sufficient to increase beta2-integrin cell surface expression, affinity, and adhesion. Thus, a tonic level of PKA activity prevents inappropriate activation of beta2 integrins in unstimulated neutrophils. Myosin light-chain (MLC) phosphorylation is an important regulator of leukocyte integrin function and adhesion. Moreover, PKA regulates MLC phosphorylation via inhibiting MLC kinase (MLCK) and MLC dephosphorylation via effects on the Rho kinase (ROCK)/MLC phosphatase pathway. We hypothesize that the tonic inhibitory effect of PKA on beta2-integrin activation neutrophils operates via its inhibition of MLC phosphorylation. We demonstrate here that inhibition of PKA activity with KT5720 activated beta2 integrins and adhesion coincident with an increase in MLC serine 19 (Ser 19) phosphorylation. KT5720-induced activation of beta2 integrins, adhesion, and MLC Ser 19 phosphorylation was abolished by pretreatment with the MLCK inhibitor ML-7 and specific MLCK inhibitory peptides but not the ROCK inhibitor Y-27632. These findings demonstrate that tonic PKA activity prevents activation of beta2 integrins and adhesion by inhibiting MLC phosphorylation via a MLCK-dependent but ROCK-independent pathway.     

Integrin-linked kinase (ILK) is required for polarizing the epiblast,cell adhesion,and controlling actin accumulation

Integrin-mediated cell-matrix interactions are essential for development, tissue homeostasis, and repair. Upon ligand binding, integrins are recruited into focal adhesions (FAs). Integrin-linked kinase (ILK) is an FA component that interacts with the cytoplasmic domains of integrins, recruits adaptor proteins that link integrins to the actin cytoskeleton, and phosphorylates the serine/threonine kinases PKB/Akt and GSK-3beta. Here we show that mice lacking ILK expression die at the peri-implantation stage because they fail to polarize their epiblast and to cavitate. The impaired epiblast polarization is associated with abnormal F-actin accumulation at sites of integrin attachments to the basement membrane (BM) zone. Likewise, ILK-deficient fibroblasts showed abnormal F-actin aggregates associated with impaired cell spreading and delayed formation of stress fibers and FAs. Finally, ILK-deficient fibroblasts have diminished proliferation rates. However, insulin or PDGF treatment did not impair phosphorylation of PKB/Akt and GSK-3beta, indicating that the proliferation defect is not due to absent or reduced ILK-mediated phosphorylation of these substrates in vivo. Furthermore, expression of a mutant ILK lacking kinase activity and/or paxillin binding in ILK-deficient fibroblasts can rescue cell spreading, F-actin organization, FA formation, and proliferation. Altogether these data show that mammalian ILK modulates actin rearrangements at integrin-adhesion sites.     

Rho kinase inhibition initiates apoptosis in human airway epithelial cells

Disruption of the actin cytoskeleton elicits profound changes in cell survival and function. The actin cytoskeleton is regulated in a hierarchical manner by Rho GTPases. Rho kinase, a downstream effector of RhoA, regulates the formation of stress fibers and focal adhesions. Disruption of the actin cytoskeleton causes apoptosis in airway epithelial cells. To examine further the relation of cytoskeletal integrity and apoptosis, we tested whether inhibition of Rho kinase would elicit apoptosis in airway epithelial cells. Inhibition with either Y-27632 or HA1077 induced membrane ruffling and loss of actin stress fibers, and apoptosis in airway epithelial cells that was blocked by inhibiting caspase function or by inhibiting protein synthesis. Cells overexpressing constitutively active Rho kinase, but not native Rho kinase, were resistant to Rho kinase inhibitor-induced stress fiber disruption and apoptosis. Inhibition of Rho kinase disrupted actin stress fibers but did not induce apoptosis in 3T3 cells. We demonstrate that Rho kinase inhibition induces airway epithelial cell apoptosis associated with changes in actin filament integrity. Our data suggest that Rho kinase may be a regulator of early initiation of apoptosis.     

Laminin receptors in the integrin family.

Integrins are membrane receptors, consisting of an alpha and a beta subunit, which are involved in cell adhesion. Their extracellular domain is able to bind to ligands such as laminin which occurs in basement membranes of various kinds of cells. Most of these integrins, with their intracellular domains, interact with the actin-containing cytoskeleton, via linking proteins such as vinculin and talin, while one of them interacts with the keratin filaments, via an as yet unknown linking molecule(s). Among more than eighteen integrins which have been identified to date, integrins alpha 3 beta 1 and alpha 6 beta 1 have been characterized as laminin receptors. They recognize the laminin long arm E8 fragment obtained after elastase digestion of the molecule. The binding requires the presence of divalent cations which bind to specific sites on the integrin alpha subunit. The affinities of the alpha 3 beta 1 and alpha 6 beta 1 integrins for murine and human laminin are different, which is probably depended on the existence of different isoforms of laminin. When cells have adhered to laminin, the alpha 6 beta 1 integrin localizes in focal contacts in which actin microfilaments are anchored to the plasma membrane. Whether another integrin, the alpha 6 beta 4 complex, of epidermal cells is also a laminin receptor has not yet been confirmed. The alpha 6 beta 4 integrin localizes in hemidesmosomes which are attachment structures to the substratum where intermediate (keratin) filaments are anchored.(ABSTRACT TRUNCATED AT 250 WORDS)     

Transgenic expression of {alpha}7{beta}1 integrin maintains muscle integrity, increases regenerative capacity, promotes hypertrophy, and reduces cardiomyopathy in dystrophic mice

We previously reported that enhanced expression of the alpha7beta1 integrin ameliorates the development of muscular dystrophy and extends longevity in alpha7BX2-mdx/utr(-/-) transgenic mice (Burkin DJ, Wallace GQ, Nicol KJ, Kaufman DJ, Kaufman SJ: Enhanced expression of the alpha7beta1 integrin reduces muscular dystrophy and restores viability in dystrophic mice. We now report on the mechanism by which these mice were rescued by the integrin. As a result of increased integrin in alpha7BX2-mdx/utr(-/-) mice the structural integrity of the myotendinous and neuromuscular junctions are maintained. A twofold increase in satellite cells in alpha7BX2-mdx/utr(-/-) skeletal muscle was detected by immunofluorescence using the satellite cell marker c-met. These cells enhanced the regenerative capacity of muscle in the transgenic animals as determined by fusion of BrdUrd-labeled cells into muscle fibers. Increased integrin also leads to hypertrophy. Finally, transgenic expression of alpha7BX2 integrin chain in skeletal muscle secondarily reduces the development of cardiomyopathy, the ultimate cause of death in these animals. We believe this multiplicity of responses to increased alpha7beta1 integrin collectively inhibits the development of muscle disease and increases longevity in these mice.     

Cytoskeletal remodeling of the airway smooth muscle cell: a mechanism for adaptation to mechanical forces in the lung

Airway smooth muscle is continuously subjected to mechanical forces caused by changes in lung volume during breathing. These mechanical oscillations have profound effects on airway smooth muscle contractility both in vivo and in vitro. Alterations in airway smooth muscle properties in response to mechanical forces may result from adaptive changes in the organization of the actin cytoskeleton. Recent advances suggest that in airway smooth muscle, two cytosolic signaling proteins that associate with focal adhesion complexes, focal adhesion kinase (FAK) and paxillin, are involved in transducing external mechanical signals. FAK and paxillin regulate changes in the organization of the actin cytoskeleton and the activation of contractile proteins. Actin is in a dynamic state in airway smooth muscle and undergoes polymerization and depolymerization during the contraction-relaxation cycle. The organization of the cytoskeletal proteins, vinculin, talin, and alpha-actinin, which mediate linkages between actin filaments and transmembrane integrins, is also regulated by contractile stimulation in airway smooth muscle. The fluidity of the cytoskeletal structure of the airway smooth muscle cell may be fundamental to its ability to adapt and respond to the mechanical forces imposed on it in the lung during breathing.     

The engagement of beta1 integrins on promonocytic cells promotes phosphorylation of Syk and formation of a protein complex containing Lyn and beta1 integrin.

The protein-tyrosine kinase Syk participates in signal transduction pathways downstream from multiple immune recognition receptors. Recent evidence indicates that Syk is also functionally coupled to cell surface integrins, which mediate interactions between the actin cytoskeleton and extracellular matrix proteins. The interactions of undifferentiated, promonocytic HL60 or U937 cells with fibronectin or anti-beta1 integrin antibodies leads to an apparent activation and tyrosine phosphorylation of Syk that is independent of tight cellular adhesion and spreading. In response to fibronectin or anti-beta1 integrin antibodies, beta1 integrins become associated with a complex of proteins that include the Lyn protein tyrosine kinase and endogenous kinase substrates of 29 and 75-80 kDa. Lyn becomes transiently activated following integrin engagement and co-localizes with the actin cytoskeleton. These studies suggest a major role for Lyn in coupling beta1 integrins to the activation of Syk.     

The α4bβ7-integrin is dynamically expressed on murine eosinophils and involved in eosinophil trafficking to the intestine

BACKGROUND: Of the numerous adhesion molecules expressed by eosinophils, the alpha4-integrin has been identified as critically involved in eosinophil trafficking in the lung. Most studies have focused on the role of the alpha4beta1-adhesion complex, but eosinophils also express the alpha4beta7-integrin complex. OBJECTIVE: To investigate the role of alpha4beta7, by assessing its membrane expression on eosinophils from different compartments using allergen-challenged mice and IL-4/IL-5 bi-transgenic mice. In addition, we aim to determine the impact of beta7-integrin deficiency on eosinophil recruitment to the lungs and intestine in specific experimental allergic models. RESULTS: Evaluation of alpha4beta7 expression on bronchoalveolar lavage fluid (BALF) and lung tissue eosinophils revealed a down-regulation of this integrin as eosinophils migrate through the lungs. Indeed eosinophils isolated from the BALF and lung of allergic mice had low expression of the alpha4beta7-complex. While expression of the alpha4-chain remained unchanged, a significant decrease in beta7-surface expression was observed. Intestinal eosinophils, isolated from Peyer's patches, also displayed a down-regulation of the alpha4beta7-integrin, albeit only modest. In contrast, circulating eosinophils, isolated from the blood and spleen, expressed high levels of the alpha4beta7-integrin. However, eosinophil trafficking into the lungs of beta7-integrin-deficient mice was not significantly impaired in response to respiratory allergen challenges. In contrast, beta7-deficient mice had impaired eosinophil recruitment to the intestine. CONCLUSION: Taken together, these results identify differential expression of the alpha4beta7-integrin on eosinophils and its critical role in regulating eosinophil responses in the intestine.     

Cloning and characterisation of the primary structure of the sheep lymphocyte function-associated antigen-1 alpha subunit

The leukocyte integrins play a critical role in a number of cellular adhesive interactions during the immune response. The ovine cDNA encoding CD11a, the predominant alpha subunit of the beta2-integrin family, was sequenced and compared with the human, bovine and murine sequences. Despite some focal differences, it shares all the main characteristics of its known mammalian homologues. Along with the ovine CD18-encoding cDNA, which is available for a few months, the sequence data provided here will allow the Ovis aries beta2-integrin CD11a/CD18 (LFA-1, alpha(L)beta2) expression in vitro as a tool to examine the specificities of inflammation in the ovine species.     

Increased expression of alpha2beta1-integrin in the peritoneal dissemination of human gastric carcinoma

The prognosis of advanced gastric cancer remains poor, given the frequent incidence of peritoneal metastasis. beta1-integrin is known to be associated with metastasis, though few reports have addressed the expression of beta1-integrin subunits in gastric cancer at primary and peritoneal lesions from the perspective of individual cases. We studied specimens from primary tumors from 50 patients and from metastatic peritoneal lesions from 27 patients with gastric carcinoma, including specimens from 22 metastatic lesions taken from the same patients whose primary tumors were sampled. Expression of beta1-integrin subunits, alpha2-alpha6beta1 integrins, was studied using an immunohistochemical method. alpha2beta1-integrin was significantly expressed on a larger proportion of tumor cells in peritoneal metastasis (70.4%) than in primary tumors (48%) (p<0.05), though alpha3beta1, alpha4beta1, alpha5beta1 and alpha6beta1-integrins did not demonstrate significant discrepancy. The expression of alpha2beta1-integrin in peritoneal lesions was significantly increased compared with its expression in the primary lesion in the same individual. In contrast, no relationship was found between the expression level of beta1 integrins and clinicopathological parameters. Peritoneal implantation of gastric carcinoma might be closely associated with alpha2beta1-integrin.     

Amino acid residues required for binding of vascular cell adhesion molecule-1 to integrin alpha 4 beta 7

The homologous Ig-like domains 1 and 4 of vascular cell adhesion molecule (VCAM)-1 present binding sites to the leukocyte integrins alpha 4 beta 1 and alpha 4 beta 7 . In the present study, amino acid substitution mutants were used to identify sequence motifs mediating binding of integrin alpha 4 beta 7 to the first domain of VCAM-1. We demonstrate that binding of integrin alpha 4 beta 7 to VCAM-1 containing the D40A mutation located in the loop between beta strands C1 and D1 was completely abrogated and was not restored by activating integrin binding functions with Mn2+. Thus, the I(39)DSP motif functions as a central recognition site for integrin alpha 4 beta 7. Analysis of the E66A mutation demonstrated that the G(64)NEH sequence, which is exposed on the loop structure between beta strands E1 and F1, represents an additional recognition site for alpha 4 beta 7 integrin. However, the inhibitory effect of the E66A mutation on cell binding was not specific for alpha 4 beta 7 but was also observed for integrin alpha 4 beta 1. In contrast to the I(39)DSP and G(64)NEH sequences, the K(79)LEK motif present in beta strand G1 was involved in binding to alpha 4 beta 1 but not alpha 4 beta 7. The function of G(64)NEH and K(79)LEK motifs in alpha 4++-integrin interactions was confirmed by divalent cation titration assays and peptide inhibition studies. Integrin binding to E66A or E81A;K82A mutants was restored by activation with saturating concentrations of Mn2+. Binding of both alpha 4 beta 1 and alpha 4 beta 7 integrins was not affected by E29A, R36A, E50A or E87A mutations. Together, these results identify the I(39)DSP and G(64)NEH motifs as common recognition sites for both alpha 4 beta 1 and alpha 4 beta 7 integrins, whereas the K(79)LEK sequence appears to confer specificity for alpha 4 beta 1 binding.      

Molecular and cellular adaptations to chronic myotendinous strain injury in mdx mice expressing a truncated dystrophin

Myotendinous strain injury is the most common injury of human skeletal muscles because the majority of muscle forces are transmitted through this region. Although the immediate response to strain injury is well characterized, the chronic response to myotendinous strain injury is less clear. Here we examined the molecular and cellular adaptations to chronic myotendinous strain injury in mdx mice expressing a microdystrophin transgene (microdystrophin(DeltaR4-R23)). We found that muscles with myotendinous strain injury had an increased expression of utrophin and alpha7-integrin together with the dramatic restructuring of peripheral myofibrils into concentric rings. The sarcolemma of the microdystrophin(DeltaR4-R23)/mdx gastrocnemius muscles was highly protected from experimental lengthening contractions, better than wild-type muscles. We also found a positive correlation between myotendinous strain injury and ringed fibers in the HSA(LR) (human skeletal actin, long repeat) mouse model of myotonic dystrophy. We suggest that changes in protein expression and the formation of rings are adaptations to myotendinous strain injury that help to prevent muscle necrosis and retain the function of necessary muscles during injury, ageing and disease.     

Intestinal restitution: progression of actin cytoskeleton rearrangements and integrin function in a model of epithelial wound healing

Superficial injury involving the mucosa of the gastrointestinal tract heals by a process termed restitution that involves epithelial sheet movement into the damaged area. The forces that drive epithelial sheet movement are only partially understood, although it is known to involve changes in the morphology of cells bordering the damage, such as the formation of large, flat, cytoplasmic extensions termed lamellae. We investigated the mechanism of epithelial sheet movement by following the response of the actin cytoskeleton and specific integrins (alpha6beta4, alpha6beta1, and alpha3beta1) to wounding. To model this event in vitro, monolayers of T84 cells, well-differentiated colon carcinoma cells, were damaged by aspiration and the ensuing response was analyzed by a combination of time-lapse video microscopy, fluorescence confocal microscopy and antibody inhibition assays. We show that wound healing begins with retraction of the monolayer. alpha6beta4 integrin is localized on the basal surface in structures referred to as type II hemidesmosomes that persist throughout this early stage. We hypothesize that these structures adhere to the substrate and function to retard retraction. Once retraction ceases, the wound is contracted initially by actin purse strings and then lamellae. Purse strings and lamellae produce a pulling force on surrounding cells, inducing them to flatten into the wound. In the case of lamellae, we detected actin suspension cables that appear to transduce this pulling force. As marginal cells produce lamellae, their basal type II hemidesmosomes disappear and the alpha6 integrins appear evenly distributed over lamellae surfaces. Antibodies directed against the alpha6 subunit inhibit lamellae formation, indicating that redistribution of the alpha6 integrins may contribute to the protrusion of these structures. Antibodies directed against the alpha3beta1 integrin also reduce the size and number of lamellae. This integrin's contribution to lamellae extension is most likely related to its localization at the leading edge of emerging protrusions. In summary, wounds in epithelial sheets initially retract, and then are contracted by first an actin purse string and then lamellae, both of which serve to pull the surrounding cells into the denuded area. The alpha6 integrins, particularly alpha6beta4, help contain retraction and both the alpha6 integrins and alpha3beta1 integrin contribute to lamellae formation.     

The role of alpha(5)beta(1)-integrin in the IGF-I-induced migration of extravillous trophoblast cells during the process of implantation

The role of integrins in the processes of adhesion and migration makes them attractive potential participants in the complex events of embryo implantation and placentation. Recently, the role of the alpha(v)beta(3)-integrin pathway was shown in the insulin-like growth factor-I (IGF-I)-stimulated migration of extravillous trophoblast (EVT) cells. This study was designed to investigate the role of alpha(5)beta(1)-integrin in this respect. Using cultured EVT cells, migration assays were carried out for IGF-I-treated or untreated cells in the presence or absence of the GRGDSP and GRGESP hexapeptides, alphaIR3, and a blocking antibody against alpha(5)beta(1)-integrin. Immuno-electron microscopy and immunofluorescent staining were performed to localize the distribution of alpha(5)beta(1)- and alpha(v)beta(3)-integrins, Rab5a, paxillin, phospho-FAK (pFAK), and vinculin. The results showed that IGF-I-induced migration of EVT cells was abolished following treatment with GRGDSP hexapeptide, alphaIR3, and a blocking antibody against alpha(5)beta(1)-integrin. Further, statistical analysis showed that the area-related numerical density of the alpha(5)beta(1)-integrin in the perinuclear regions was significantly higher than in the cell extensions. Immunocytochemical experiments demonstrated an up-regulation in internalization rate of alpha(5)beta(1)-integrin in IGF-I-stimulated EVT cells. Furthermore, alpha(5)beta(1)-integrin exhibited co-localization with Rab5a, but not with alpha(v)beta(3)-integrin, pFAK, paxillin, and vinculin at the focal adhesions of the EVT cells. Taken together, these findings suggest an essential role for alpha(5)beta(1)-integrin in IGF-I-promoted migration of EVT cells. It is possible therefore that IGF-I-induced internalization of alpha(5)beta(1)-integrin may be an important event during the migration of EVT cells in the complex processes of implantation and placentation.     

Isoproterenol induces primary loss of dystrophin in rat hearts: correlation with myocardial injury

The mechanism of isoproterenol-induced myocardial damage is unknown, but a mismatch of oxygen supply vs. demand following coronary hypotension and myocardial hyperactivity is the best explanation for the complex morphological alterations observed. Severe alterations in the structural integrity of the sarcolemma of cardiomyocytes have been demonstrated to be caused by isoproterenol. Taking into account that the sarcolemmal integrity is stabilized by the dystrophin-glycoprotein complex (DGC) that connects actin and laminin in contractile machinery and extracellular matrix and by integrins, this study tests the hypothesis that isoproterenol affects sarcolemmal stability through changes in the DGC and integrins. We found different sensitivity of the DGC and integrin to isoproterenol subcutaneous administration. Immunofluorescent staining revealed that dystrophin is the most sensitive among the structures connecting the actin in the cardiomyocyte cytoskeleton and the extracellular matrix. The sarcomeric actin dissolution occurred after the reduction or loss of dystrophin. Subsequently, after lysis of myofilaments, gamma-sarcoglycan, beta-dystroglycan, beta1-integrin, and laminin alpha-2 expressions were reduced followed by their breakdown, as epiphenomena of the myocytolytic process. In conclusion, administration of isoproterenol to rats results in primary loss of dystrophin, the most sensitive among the structural proteins that form the DGC that connects the extracellular matrix and the cytoskeleton in cardiomyocyte. These changes, related to ischaemic injury, explain the severe alterations in the structural integrity of the sarcolemma of cardiomyocytes and hence severe and irreversible injury induced by isoproterenol.     

Not just scaffolding: plectin regulates actin dynamics in cultured cells

Plectin, a major linker and scaffolding protein of the cytoskeleton, has been shown to be essential for the mechanical integrity of skin, skeletal muscle, and heart. Studying fibroblast and astroglial cell cultures derived from plectin (−/−) mice, we found that their actin cytoskeleton, including focal adhesion contacts, was developed more extensively than in wild-type cells. Also it failed to show characteristic short-term rearrangments in response to extracellular stimuli activating the Rho/Rac/Cdc42 signaling cascades. As a consequence, cell motility, adherence, and shear stress resistance were altered, and morphogenic processes were delayed. Furthermore, we show that plectin interacts with G-actin in vitro in a phosphatidylinositol-4,5-biphosphate-dependent manner and associates with actin stress fibers in living cells. The actin stress fiber phenotype of plectin-deficient fibroblasts could be reversed to a large degree by transient transfection of full-length plectin or plectin fragments containing the amino-terminal actin-binding domain (ABD). These results reveal a novel role of plectin as regulator of cellular processes involving actin filament dynamics that goes beyond its proposed role in scaffolding and mechanical stabilization of cells.     

Evaluation of sarcoglycans, vinculin-talin-integrin system and filamin2 in alpha- and gamma-sarcoglycanopathy: an immunohistochemical study

The sarcoglycan subcomplex (SGC) is a well-known system of interaction between extracellular matrix and sarcolemma-associated cytoskeleton in skeletal and cardiac muscle. The SGC is included in the DGC made up of sarcoplasmic subcomplex and a dystroglycan subcomplex. Recent developments in molecular genetics have demonstrated that the mutation of each single sarcoglycan gene, causes a series of recessive autosomal muscular dystrophies, dystrophin-positive, called sarcoglycanopathies or limb girdle muscular dystrophies. Our recent studies have demonstrated that costameres are a proteic machinery made up of DGC and vinculin-talin-integrin system, also revealing the colocalization of sarcoglycans and integrins in adult human skeletal muscle. These results may support the hypothesis of the existence of a bidirectional signalling between sarcoglycans and integrins in cultured L6 myocytes. The hypothesis of bidirectional signalling between sarcoglycans and integrins could be supported by the identification of a skeletal and cardiac muscle filamin2 as a gamma-sarcoglycan, delta-sarcoglycan and, hypothetically, beta1 integrin interacting protein. Our results, acquired with an immunofluorescence study on adult human skeletal muscle affected by LGMD type 2D and 2C, showed that in LGMD2D: a) alpha-sarcoglycan staining is severely reduced; b) the beta-gamma-delta-sarcoglycan subunit and all tested integrins staining are clearly detectable; c) filamin2 is normal and shows a costameric distribution. In LGMD2C: a) alpha-sarcoglycan staining is preserved; b) the beta-gamma-delta-sarcoglycan subunit staining is severely reduced; c) the alpha7B-integrin is slightly reduced and beta1D-integrin is severely reduced; d) filamin2 is severely reduced. Other tested proteins of the two systems show a normal staining pattern in both sarcoglycanopathies. Our study seems to confirm, for the first time on adult human skeletal muscle of subjects affected by LGMDs, the hypo-theses of: a) the existence, in mouse myotubes in culture, of two distinct subunits in sarcoglycans subcomplex; b) the presence of a bidirectional signalling between sarcoglycans and integrins, previously demonstrated on rat cultured L6 myocytes; c) the interaction of FLN2 with both sarcoglycans and integrins. These results may stimulate the search of yet unidentified common interactors of both fiber-extracellular matrix interaction systems.