Hypoxia selectively induces proliferation in a specific subpopulation of smooth muscle cells in the bovine neonatal pulmonary arterial media.

@article{Wohrley1995HypoxiaSI,
  title={Hypoxia selectively induces proliferation in a specific subpopulation of smooth muscle cells in the bovine neonatal pulmonary arterial media.},
  author={Julie D. Wohrley and Maria G. Frid and Elena P. Moiseeva and E. Christopher Orton and James K Belknap and Kurt R. Stenmark},
  journal={The Journal of clinical investigation},
  year={1995},
  volume={96 1},
  pages={
          273-81
        }
}
Medial thickening of the pulmonary arterial wall, secondary to smooth muscle cell (SMC) hyperplasia, is commonly observed in neonatal hypoxic pulmonary hypertension. Because recent studies have demonstrated the existence of multiple phenotypically distinct SMC populations within the arterial media, we hypothesized that these SMC subpopulations would differ in their proliferative responses to hypoxic pulmonary hypertension and thus contribute in selective ways to the vascular remodeling process… 
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Smooth muscle cell heterogeneity in pulmonary and systemic vessels. Importance in vascular disease.
TLDR
In vivo and in vitro observations strongly suggest that marked differences in the phenotype, growth, and matrix-producing capabilities of phenotypically distinct SMC subpopulations exist and that these differences are intrinsic to the cell type.
Bovine distal pulmonary arterial media is composed of a uniform population of well-differentiated smooth muscle cells with low proliferative capabilities.
TLDR
It is speculated that distinct SMC phenotypes present in distal vs. proximal PA may confer different response mechanisms during remodeling in conditions such as hypertension.
Heterogeneity in the proliferative response of bovine pulmonary artery smooth muscle cells to mitogens and hypoxia: importance of protein kinase C.
TLDR
The concept that heterogeneity in growth capacity of PA SMCs exists within the bovine PA media is supported, that these intrinsic differences in growth govern, at least in part, the pattern of abnormal SMC proliferation observed in vivo, and that the PKC pathway is likely an important determinant of the subpopulation-specific differences found.
Smooth muscle cells isolated from discrete compartments of the mature vascular media exhibit unique phenotypes and distinct growth capabilities.
TLDR
The data, demonstrating that phenotypically distinct cells with enhanced growth potential exist within the normal arterial media, support the idea that these unique cells could contribute selectively to the pathogenesis of vascular disease.
Distinct responses to hypoxia in subpopulations of distal pulmonary artery cells contribute to pulmonary vascular remodeling in emphysema
We have shown previously that hypoxia inhibits the growth of distal human pulmonary artery smooth muscle cells (PASMC) isolated under standard normoxic conditions (PASMCnorm). By contrast, a…
Reversible or irreversible remodeling in pulmonary arterial hypertension.
TLDR
The pathogenetic concepts of severe PAH are reviewed and it is suggested that the proliferative state of SMC may be reversible, it remains unknown whether phenotypically altered EC can switch back to a normal monolayer-forming EC.
Hypoxia induces cell-specific changes in gene expression in vascular wall cells: implications for pulmonary hypertension.
TLDR
Accumulating evidence suggests that the unique responses exhibited by specific cell types of hypoxia in vivo can be modeled in vitro, and the signaling pathways which are activated in those cell populations that exhibit proliferative responses to Hypoxia are begun to elucidate.
Dynamic and diverse changes in the functional properties of vascular smooth muscle cells in pulmonary hypertension
TLDR
This work addresses the acquisition of a pro-inflammatory phenotype by SMC that is essential to the development of PH and presents evidence that metabolic alterations akin to those observed in cancer cells (cytoplasmic and mitochondrial) directly contribute to the phenotype of the SM and SM-like cells involved in PH.
Smooth muscle cell hypertrophy, proliferation, migration and apoptosis in pulmonary hypertension.
TLDR
The factors identified thus far to be involved in PH intiation and/or progression are reviewed and their effects on pulmonary artery smooth muscle cells (PASMCs) the predominant cells in the tunica media of PAs are reviewed.
RhoA Activation by Hypoxia in Pulmonary Arterial Smooth Muscle Cells Is Age and Site Specific
TLDR
Investigation of the effects of acute and chronic hypoxia on the morphology and RhoA activity of porcine pulmonary arterial SMCs from fetal and neonatal piglets shows that acuteHypoxia induces Rho a activation only in PASMCs from young animals, whereas chronic hyp oxia selectively downregulates RHoA activity in outer medial PAS MCs leading to an altered phenotype.
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