Hans Boström scite author profile

A mouse platelet-derived growth factor A chain (PDGF-A) null allele is shown to be homozygous lethal, with two distinct restriction points, one prenatally before E10 and one postnatally. Postnatally surviving PDGF-A-deficient mice develop lung emphysema secondary to the failure of alveolar septation. This is apparently caused by the loss of alveolar myofibroblasts and associated elastin fiber deposits. PDGF alpha receptor-positive cells in the lung having the location of putative alveolar myofibroblast progenitors were specifically absent in PDGF-A null mutants. We conclude that PDGF-A is crucial for alveolar myofibroblast ontogeny. We have previously shown that PDGF-B is required in the ontogeny of kidney mesangial cells. The PDGFs therefore appear to regulate the generation of specific populations of myofibroblasts during mammalian development. The two PDGF null phenotypes also reveal analogous morphogenetic functions for myofibroblast-type cells in lung and kidney organogenesis.

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PDGF-C is a new protease-activated ligand for the PDGF α-receptor

Pontén

et al. 2000

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Platelet-derived growth factors (PDGFs) are important in many types of mesenchymal cell. Here we identify a new PDGF, PDGF-C, which binds to and activates the PDGF alpha-receptor. PDGF-C is activated by proteolysis and induces proliferation of fibroblasts when overexpressed in transgenic mice. In situ hybridization analysis in the murine embryonic kidney shows preferential expression of PDGF-C messenger RNA in the metanephric mesenchyme during epithelial conversion. Analysis of kidneys lacking the PDGF alpha-receptor shows selective loss of mesenchymal cells adjacent to sites of expression of PDGF-C mRNA; this is not found in kidneys from animals lacking PDGF-A or both PDGF-A and PDGF-B, indicating that PDGF-C may have a unique function.

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A specific requirement for PDGF-C in palate formation and PDGFR-α signaling

et al. 2004

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PDGFB Regulates the Development of the Labyrinthine Layer of the Mouse Fetal Placenta

Ohlsson

Falck

Hellström

et al. 1999

Developmental Biology

110

101

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PDGFB is a growth factor which is vital for the completion of normal prenatal development. In this study, we report the phenotypic analysis of placentas from mouse conceptuses that lack a functional PDGFB or PDGFRbeta gene. Placentas of both types of mutant exhibit changes in the labyrinthine layer, including dilated embryonic blood vessels and reduced numbers of both pericytes and trophoblasts. These changes are seen from embryonic day (E) 13.5, which coincides with the upregulation of PDGFB mRNA levels in normal placentas. By E17, modifications in shape, size, and number of the fetal blood vessels in the mutant placentas cause an abnormal ratio of the surface areas between the fetal and the maternal blood vessels in the labyrinthine layer. Our data suggest that PDGFB acts locally to contribute to the development of the labyrinthine layer of the fetal placenta and the formation of a proper nutrient-waste exchange system during fetal development. We point out that the roles of PDGFB/Rbeta signaling in the placenta may be analogous to those in the developing kidney, by controlling pericytes in the labyrinthine layer and mesangial cells in the kidney.

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PDGF‐a/PDGF alpha‐receptor signaling is required for lung growth and the formation of alveoli but not for early lung branching morphogenesis

Boström

Gritli-Linde

Betsholtz

2001

Developmental Dynamics

122

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Platelet-derived growth factors (PDGF) constitute a family of four gene products (PDGF-A-D) acting by means of two receptor tyrosine kinases, PDGFR␣ and ␤. Three of the ligands (PDGF-A, -B, and -C) bind to PDGFR␣ with high affinity. Knockout of pdgf-a in mice has demonstrated a role for PDGF-A in the recruitment of smooth muscle cells to the alveolar sacs and their further compartmentalization into alveoli. Although this is a late, postnatal step in lung development, pdgf-a antisense oligonucleotides were previously shown to inhibit epithelial branching in rat lung explants in vitro, which reflects an early embryonic process. These conflicting results may be explained by substitution of genetic loss of pdgf-a by maternal transfer of PDGF-A to the knockout embryo or the presence of other PDGFR␣ agonists (PDGF-B and -C) in vivo, potentially masking an effect of PDGF-A on branching morphogenesis. Alternatively, the administration of pdgf-a antisense oligonucleotides affected other processes than the intended. To discriminate between these opposing possibilities, we have analyzed lung development in pdgfr␣ ؊/؊ embryos and lung primordia grown in vitro. Our analysis shows that, while the pdgfr␣ ؊/؊ lungs and explanted lung rudiments were smaller than normal, branching morphogenesis appears qualitatively intact and proceeds until at least embryonic day 15.5, generating both prospective conducting and respiratory airways. We conclude that, although PDGF-AA signaling over PDGFR␣ may have direct or indirect roles in overall lung growth, it does not specifically control early branching of the lung epithelium.

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Hans Boström

PDGF-A Signaling Is a Critical Event in Lung Alveolar Myofibroblast Development and Alveogenesis

PDGF-C is a new protease-activated ligand for the PDGF α-receptor

A specific requirement for PDGF-C in palate formation and PDGFR-α signaling

PDGFB Regulates the Development of the Labyrinthine Layer of the Mouse Fetal Placenta

PDGF‐a/PDGF alpha‐receptor signaling is required for lung growth and the formation of alveoli but not for early lung branching morphogenesis

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