Faculty Opinions recommendation of The netrin receptor DCC focuses invadopodia-driven basement membrane transmigration in vivo.

2013 ◽  
Author(s):  
Kenneth Yamada ◽  
Ryan Petrie
Keyword(s):  
Basement Membrane

Migration of leukocytes through the vessel wall and beyond

2003 ◽  
Vol 90 (10) ◽  
pp. 598-606 ◽  
Author(s):  
Rashmi Yadav ◽  
Karen Larbi ◽  
Rebecca Young ◽  
Sussan Nourshargh
Keyword(s):  
Basement Membrane ◽  
Vessel Wall ◽  
International Workshop ◽  
Medical Science ◽  
Blood Stream ◽  
Primary Response ◽  
Leukocyte Migration ◽  
Leukocyte Transmigration ◽  
Cellular Events

SummaryThe migration of leukocytes from the vascular lumen to sites of infection and/or injury in the extravascular tissue involves a series of sequential and coordinated molecular and cellular events with the resultant primary response being that of reduced leukocyte velocity within the blood stream, followed by leukocyte firm adhesion to endothelial cells lining the vessel wall and eventually migration through the vessel wall. Despite the growing knowledge of the mechanisms that mediate initial interaction of leukocytes with the endothelium, very little is known about the mechanisms that mediate and regulate leukocyte migration through the venular wall, the endothelium and its associated perivascular basement membrane. This review, whilst giving a brief outline of the stepwise cascade of molecular interactions involved in this process and the methods employed to investigate leukocyte migration in vivo, focuses primarily on mechanisms of leukocyte transmigration, the final step in the process of leukocyte emigration. Furthermore, special emphasis is placed on discussing the process and the mechanisms involved in leukocyte migration through the basement membrane, a structure that presents significant impedance to transmigrating leukocytes but is seldom investigated in the context of leukocyte transmigration in vivo. The review also discusses the growing evidence supporting the concept that leukocyte transmigration is not only a response that describes the passage of leukocytes through the venular wall, but also acts as a means of regulating leukocyte responsiveness beyond the vessel wall, i.e. within the extravascular tissue.This publication was partially financed by Serono Foundation for the Advancement of Medical Science.Part of this paper was originally presented at the 2nd International Workshop on New Therapeutic Targets in Vascular Biology from February 6-9, 2003 in Geneva, Switzerland.

Matrigel induces thymosin beta 4 gene in differentiating endothelial cells

1995 ◽  
Vol 108 (12) ◽  
pp. 3685-3694 ◽  
Author(s):  
D.S. Grant ◽  
J.L. Kinsella ◽  
M.C. Kibbey ◽  
S. LaFlamme ◽  
P.D. Burbelo ◽  
...  
Keyword(s):  
Endothelial Cells ◽  
Basement Membrane ◽  
Morphological Differentiation ◽  
Tube Formation ◽  
Vessel Formation ◽  
Thymosin Beta 4 ◽  
Cdna Hybridization ◽  
Matrix Components ◽  
Cells Cultured

We performed differential cDNA hybridization using RNA from endothelial cells cultured for 4 hours on either plastic or basement membrane matrix (Matrigel), and identified early genes induced during the morphological differentiation into capillary-like tubes. The mRNA for one clone, thymosin beta 4, was increased 5-fold. Immunostaining localized thymosin beta 4 in vivo in both growing and mature vessels as well as in other tissues. Endothelial cells transfected with thymosin beta 4 showed an increased rate of attachment and spreading on matrix components, and an accelerated rate of tube formation on Matrigel. An antisense oligo to thymosin beta 4 inhibited tube formation on Matrigel. The results suggest that thymosin beta 4 is induced and likely involved in differentiating endothelial cells. Thymosin beta 4 may play a role in vessel formation in vivo.

Interactions between mesoderm cells and the extracellular matrix following gastrulation in the chick embryo

1991 ◽  
Vol 99 (2) ◽  
pp. 431-441
Author(s):  
A.J. Brown ◽  
E.J. Sanders
Keyword(s):  
Extracellular Matrix ◽  
Chick Embryo ◽  
Basement Membrane ◽  
Primitive Streak ◽  
Cell Binding ◽  
Fab Fragment ◽  
Fibronectin Receptor ◽  
In Vitro Methods

In the gastrulating chick embryo, the mesoderm cells arise from the epiblast layer by ingression through the linear accumulation of cells called the primitive streak. The mesoderm cells emerge from the streak with a fibroblastic morphology and proceed to move away from the mid-line of the embryo using, as a substratum, the basement membrane of the overlying epiblast and the extracellular matrix. We have investigated the roles of fibronectin and laminin as putative substrata for mesoderm cells using complementary in vivo and in vitro methods. We have microinjected agents into the tissue space adjacent to the primitive streak of living embryos and, after further incubation, we have examined the embryos for perturbation of the mesoderm tissue. These agents were: cell-binding regions from fibronectin (RGDS) and laminin (YIGSR), antibodies to these glycoproteins, and a Fab' fragment of the antibody to fibronectin. We find that RGDS, antibody to fibronectin, and the Fab' fragment cause a decrease in the number of mesoderm cells spread on the basement membrane, and a perturbation of cell shape suggesting locomotory impairment. No such influence was seen with YIGSR or antibodies to laminin. These results were extended using in vitro methods in which mesoderm cells were cultured in fibronectin-free medium on fibronectin or laminin in the presence of various agents. These agents were: RGDS; YIGSR; antibodies to fibronectin, fibronectin receptor, laminin and vitronectin; and a Fab' fragment of the fibronectin antiserum. We find that cell attachment and spreading on fibronectin is impaired by RGDS, antiserum to fibronectin, the Fab' fragment of fibronectin antiserum, and antiserum to fibronectin receptor. The results suggest that although the RGDS site in fibronectin is important, it is probably not the only fibronectin cell-binding site involved in mediating the behaviour of the mesoderm cells. Cells growing on laminin were perturbed by YIGSR, RGDS and antibodies to laminin, suggesting that mesoderm cells are able to recognise at least two sites in the laminin molecule. We conclude that the in vivo dependence of mesoderm cells on fibronectin is confirmed, but that although these cells have the ability to recognise sites in laminin as mediators of attachment and spreading, the in vivo role of this molecule in mesoderm morphogenesis is not yet certain.

Specific ablation of the nidogen-binding site in the laminin γ1 chain interferes with kidney and lung development

Development ◽  
2002 ◽  
Vol 129 (11) ◽  
pp. 2711-2722 ◽  
Author(s):  
Michael Willem ◽  
Nicolai Miosge ◽  
Willi Halfter ◽  
Neil Smyth ◽  
Iris Jannetti ◽  
...  
Keyword(s):  
Basement Membrane ◽  
Binding Site ◽  
Lung Development ◽  
Collagen Type Iv ◽  
Developmental Defects ◽  
Type Iv ◽  
And Function ◽  
Kidney Morphogenesis ◽  
Nidogen 1

Basement membrane assembly is of crucial importance in the development and function of tissues and during embryogenesis. Nidogen 1 was thought to be central in the assembly processes, connecting the networks formed by collagen type IV and laminins, however, targeted inactivation of nidogen 1 resulted in no obvious phenotype. We have now selectively deleted the sequence coding for the 56 amino acid nidogen-binding site, γ1III4, within the Lamc1 gene by gene targeting. Here, we show that mice homozygous for the deletion die immediately after birth, showing renal agenesis and impaired lung development. These developmental defects were attributed to locally restricted ruptures in the basement membrane of the elongating Wolffian duct and of alveolar sacculi. These data demonstrate that an interaction between two basement membrane proteins is required for early kidney morphogenesis in vivo.

Basement membrane and interstitial matrix components form separate matrices in heterokaryons of PYS-2 cells and fibroblasts

1993 ◽  
Vol 104 (1) ◽  
pp. 59-68
Author(s):  
P. Laurila ◽  
I. Leivo
Keyword(s):  
Basement Membrane ◽  
Matrix Protein ◽  
Spatial Organization ◽  
Gene Dosage ◽  
Parental Cell ◽  
Cell Nuclei ◽  
Fibronectin Matrix ◽  
Basement Membrane Protein ◽  
The Matrix

In order to gain further understanding of the spatial organization of interstitial and basement membrane matrices, we studied the expression of the interstitial matrix protein, fibronectin, and the basement membrane protein, laminin, in heterokaryons formed by the fusion of normal fibroblasts and teratocarcinoma-derived epithelial PYS-2 cells. These heterokaryons showed various distributions of the matrix proteins depending on the proportions of the different parental cell nuclei within the cytoplasm of the cell. Heterokaryons containing equal numbers of fibroblast and PYS-2 cell nuclei showed an abundant laminin matrix subcellularly and only minor amounts of fibronectin matrix at the periphery of the cells. Similar results were obtained in heterokaryons containing an excess of epithelial cell nuclei. In heterokaryons containing an excess of fibroblast nuclei, on the other hand, laminin matrix was reduced and a fibrillar fibronectin matrix was seen also on top of the cell body. The results suggest a gene dosage-type of effect on the expression of these proteins. Furthermore, extracellular laminin and fibronectin matrices did not codistribute around the heterokaryons but the two proteins were assembled into separate structures. The lack of codistribution of fibronectin and laminin matrices in heterokaryons suggests that the molecular interactions, which determine the assembly of basement membrane and interstitial matrices in these cells are highly type-specific. Similar mechanisms may also operate in the assembly of extracellular matrices in vivo.

Analysis of elongating morphogenesis of quail anterior submaxillary gland: absence of localized cell proliferation

Development ◽  
1981 ◽  
Vol 62 (1) ◽  
pp. 229-239
Author(s):  
Hiroyuki Nogawa
Keyword(s):  
Cell Proliferation ◽  
Basement Membrane ◽  
Regional Differences ◽  
Submaxillary Gland ◽  
Mesenchymal Cells ◽  
Submaxillary Glands ◽  
Parallel Direction ◽  
Recombination Experiments

Quail anterior submaxillary glands elongated extensively without branching (more than sevenfold) from 8 to 10 incubation days. Investigation of mitotic activity of the rudiments in vivo showed no localized cell proliferation throughout the rudiments, and recombination experiments in vitro to examine regional differences in mitogenic activity of the surrounding mesenchyme also showed that no mesenchymal region specifically stimulates the epithelial cell proliferation. Histological observation of the rudiments showed that epithelial cells did not lengthen in a parallel direction to the long axis of the rudiment, and that mesenchymal cells encircled the epithelial cord perpendicularly to its axis. The basement membrane was obscure in the distal end of the rudiments, while it was easily detected in the other part of the rudiments. These results suggest that the elongating morphogenesis of the anterior submaxillary rudiments is not achieved by localized cell proliferation but by almost uniformly distributed cell proliferation, and mesenchymal cells surrounding the rudiment or the basement membrane may be involved in the controlling mechanisms of the elongating morphogenesis.

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