Karin Holmvall scite author profile

Abstract. Branching epithelial morphogenesis requiresinteractions between the surrounding mesenchyme and the epithelium, as well as interactions between basement membrane components and the epithelium. Embryonic submandibular gland was used to study the roles of two mesenchymal proteins, epimorphin and tenascin-C, as well as the epithelial protein laminin-1 and one of its integrin receptors on branching morphogenesis. Laminin-1 is a heterotrimer composed of an al chain and two smaller chains (/31 and ,y1). Immunofluorescence revealed a transient expression of laminin al chain in the epithelial basement membrane during early stages of branching morphogenesis. Other laminin-1 chains and a6, /~1, and/34 integrin subunits seemed to be expressed constitutively. Expression of epimorphin, but not tenascin-C, was seen in the mesenchyme during early developmental stages, but a mAb against epimorphin did not perturb branching morphogenesis of this early epithelium. In contrast, inhibition of branching morphogenesis was seen with a mAb against the carboxy terminus of laminin cd chain, the E3 domain. An inhibition of branching was also seen with a mAb against the integrin oL6 subunit. The antibodies against laminin cd chain and integrin a6 subunit perturbed development in distinct fashions. Whereas treatment with the anti-E3 resulted in discontinuities of the basement membrane at the tips of the branching epithelium, treatment with the mAb against a6 integrin subunit seemed to leave the basement membrane intact. We suggest that the laminin E3 domain is involved in basement membrane formation, whereas ot6fll integrin binding to laminin-1 may elicit differentiation signals to the epithelial cells.

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Chondrocyte and Chondrosarcoma Cell Integrins with Affinity for Collagen Type II and Their Response to Mechanical Stress

Holmvall

Camper

Johansson

et al. 1995

Experimental Cell Research

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Distribution of the collagen-binding integrin α10β1 during mouse development

Camper

Holmvall

Wängnerud

et al. 2001

Cell and Tissue Research

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We have previously identified and characterised the collagen type II-binding integrin subunit alpha10, which is a member of the beta1 family and is expressed by chondrocytes. In the present study, we examined the expression of the alpha10 integrin in various mouse tissues. Immunohistochemical analysis of alpha10 on cryosections from 3-day-old mice demonstrated that alpha10beta1 was present in the hyaline cartilage of joints, vertebral column, trachea and bronchi. In addition, alpha10 was found in the ossification groove of Ranvier, in the aortic and atrioventricular valves of the heart and in the fibrous tissue lining skeletal muscle and ligaments. Overall, the distribution was distinct from that of the collagen-binding integrins alpha1beta1 and alpha2beta1. We also found that alpha10beta1was the dominating collagen-binding integrin during cartilage development. Expression of alpha10 appeared at embryonic day 11.5 (E11.5) at the same time as chondrogenesis started as judged by collagen type II expression. At E13.5, alpha10 was present throughout the anlage as well as in the perichondrium and in mesenchyme just outside the perichondrium, where it localised with collagen type I. Four weeks after birth, alpha10 was prominent both at the articular surface and in the growth plate. In conclusion, we found that integrin alpha10beta1 was a major collagen-binding integrin during cartilage development and in mature hyaline cartilage. In addition, we found that alpha10beta1 was present in some fibrous tissues.

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Karin Holmvall

Antibodies against domain E3 of laminin-1 and integrin alpha 6 subunit perturb branching epithelial morphogenesis of submandibular gland, but by different modes.

Chondrocyte and Chondrosarcoma Cell Integrins with Affinity for Collagen Type II and Their Response to Mechanical Stress

Distribution of the collagen-binding integrin α10β1 during mouse development

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