Showing papers on "Smoothelin published in 2003"

Global Expression Profiling of Fibroblast Responses to Transforming Growth Factor-β1 Reveals the Induction of Inhibitor of Differentiation-1 and Provides Evidence of Smooth Muscle Cell Phenotypic Switching

Abstract: Transforming growth factor-beta1 (TGF-beta1) plays a central role in promoting extracellular matrix protein deposition by promoting the transformation of fibroblasts to myofibroblasts. To gain new insights into the transcriptional programs involved, we profiled human fetal lung fibroblast global gene expression in response to TGF-beta1 up to 24 hours using oligonucleotide microarrays. In this report, we present data for 146 genes that were up-regulated at least twofold at two time points. These genes group into several major functional categories, including genes involved in cytoskeletal reorganization (n = 30), matrix formation (n = 25), metabolism and protein biosynthesis (n = 27), cell signaling (n = 21), proliferation and survival (n = 13), gene transcription (n = 9), and of uncertain function (n = 21). For 80 of these genes, this is the first report that they are TGF-beta1-responsive. The early induction of two members of the inhibitor of differentiation (ID) family of transcriptional regulators, ID1 and ID3, was followed by the up-regulation of a number of genes that are usually expressed by highly differentiated smooth muscle cells, including smooth muscle myosin heavy chain, basic calponin, and smoothelin. These findings were confirmed at the protein level for primary adult lung fibroblasts. ID1 further behaved like a typical immediate-early gene and, unlike ID3, was expressed and induced at the protein level. Immunohistochemical analysis showed that ID1 was highly expressed by (myo)fibroblasts within fibrotic foci in experimentally induced pulmonary fibrosis. ID1 acts as a dominant-negative antagonist of basic helix-loop-helix transcription factors that drive cell lineage commitment and differentiation. These findings have important implications for our understanding of fibroblast transcriptional programming in response to TGF-beta1 during development, oncogenesis, tissue repair, and fibrosis.

Differential gene expression in human cerebrovascular malformations.

Abstract: Cerebrovascular malformations (CVMs) are lesions with an abnormal vessel phenotype that predisposes patients to hemorrhagic strokes, seizures, focal neurological deficits, and other clinical manifestations (4, 22). They include arteriovenous malformations (AVMs) and cerebral cavernous malformations (CCMs) and have distinct clinicopathological radiological profiles (14, 30). The AVMs are tangled complexes of tortuous vessels representing fistulous connections between arteries and veins, and they lack an intervening capillary bed. They reveal preserved features of mature vessel wall phenotype altered by high flow and hemodynamic stress, including arterial, nidal, and venous aneurysms (5, 6, 28). The CCMs are characterized by caverns filled with blood or thrombus and are lined with a single layer of endothelial cells. These low-flow lesions are associated with brittle vasculature and repetitive oozing (5, 6). The CCMs lack inter-endothelial cell tight junctions and mature vessel wall angio-architecture (8, 37). Little is known about the mechanisms of genesis or the progression of these lesions. Several proteins are abnormally expressed in AVMs and CCMs. Our group and others have demonstrated by performing immunohistochemical analysis that vascular endothelial growth factor (VEGF) and the VEGF receptors VEGF-r1 (flt1) and VEGF-r2 (flk1) are overexpressed in both AVMs and CCMs compared with normal brain vessels (21, 35). Fibronectin is expressed to a greater extent in CCMs than in AVMs, consistent with the proliferative immature vessel phenotype (21). Laminin and smoothelin, both of which reflect mature vessel wall phenotype, are underexpressed in CCMs as compared with AVMs (21, 34). Distinct genes have been identified that predispose individuals to familial manifestations of these lesions, which is related to transforming growth factor-β receptor binding proteins (1, 13, 18, 19) and the Krev Interaction Trapped 1 (krit1) signaling pathway (9, 17, 23, 26, 32) for AVMs and CCMs, respectively. We hypothesize that different groups of genes are involved in the pathogenesis of AVMs and CCMs and that other genes are nonspecifically associated with both lesion types. In the experiments described in this article, we applied gene microarray analysis to correlate alterations in ribonucleic acid (RNA) transcription in AVMs and CCMs to the previously published abnormal protein expression in these lesions. In addition, we found numerous other genes differentially expressed in one or both lesion types, which has not been reported previously.

Estimation of Haplotype Frequencies, Linkage-Disequilibrium Measures, and Combination of Haplotype Copies in Each Pool by Use of Pooled DNA Data

Abstract: Inference of haplotypes is important for many genetic approaches, including the process of assigning a phenotype to a genetic region. Usually, the population frequencies of haplotypes, as well as the diplotype configuration of each subject, are estimated from a set of genotypes of the subjects in a sample from the population. We have developed an algorithm to infer haplotype frequencies and the combination of haplotype copies in each pool by using pooled DNA data. The input data are the genotypes in pooled DNA samples, each of which contains the quantitative genotype data from one to six subjects. The algorithm infers by the maximum-likelihood method both frequencies of the haplotypes in the population and the combination of haplotype copies in each pool by an expectation-maximization algorithm. The algorithm was implemented in the computer program LDPooled. We also used the bootstrap method to calculate the standard errors of the estimated haplotype frequencies. Using this program, we analyzed the published genotype data for the SAA (n=156), MTHFR (n=80), and NAT2 (n=116) genes, as well as the smoothelin gene (n=102). Our study has shown that the frequencies of major (frequency >0.1 in a population) haplotypes can be inferred rather accurately from the pooled DNA data by the maximum-likelihood method, although with some limitations. The estimated D and D′ values had large variations except when |D| values were >0.1. The estimated linkage-disequilibrium measure ρ2 for 36 linked loci of the smoothelin gene when one- and two-subject pool protocols were used suggested that the gross pattern of the distribution of the measure can be reproduced using the two-subject pool data.

Androgen and prostatic stroma.

Abstract: AIM To investigate the effect of androgen on the proliferation, differentiation and regression of canine prostatic stromal cells in vivo and human stromal cells in vitro. METHODS Twenty-two dogs, including 15 normal prostate dogs and 7 prostatic hyperplasia dogs, had their serum concentration of testosterone and estrodiol determined by radioimmunoassay before and after castration. The expression of androgen receptor (AR) and estrogen receptor (ER) in the prostate were analysed by immunohistochemistry and semi-quantitative RT-PCR before and after castration. Light microscopy, transmission electron microscopy and TUNEL assay were carried out successively before and after castration to evaluate the prostatic histomorphology. In vitro serum-free cell cultures from human prostatic stroma were established and exposed to dihydrotestosterone (DHT). The proliferation of the cell culture was detected by MTT assay. The expression of TGFbgr, bFGF, AR, and smooth muscle cell (SMC) specific proteins (myosin and/or smoothelin) were detected using immunohistochemistry and RT-PCR. The differentiation from fibroblasts to smooth muscle cells was deduced by measuring the expression of SMC specific proteins. RESULTS Before castration, the serum concentrations of testosterone and estrodiol were not statistically different between normal and hyperplasia groups. Following castration, the serum concentration of testosterone decreased rapidly in 2 days, and the concentration of estrodiol had no significant change compared with the pre-castration data. In the prostate, AR was presented in both the epithelial and stromal cells and the AR mRNA level was higher in hyperplasia than in normal prostate tissues (P<0.05). While ER predominantly existed in the prostate stromal cells and the ER mRNA had no difference between the hyperplasia and the normal group. Within the early phase of castration (

Smoothelin-positive cells in human and porcine semilunar valves.

Abstract: Our aim was to further characterize the interstitial cell phenotypes of normal porcine and human semilunar valves, information necessary for the design of bioengineered valves and for the understanding of valve disease processes such as aortic valve sclerosis. Existence of fibroblasts, myofibroblasts, and smooth muscle-like cells within semilunar heart valves has been established. However, the nature of the smooth muscle cell population has been controversial. We used immunochemical and western blotting methods to determine the status of smoothelin and smooth muscle alpha-actin in the valve. Our examination of valve interstitial cells confirmed the presence of terminally differentiated, contractile smooth muscle cells in situ. They were arranged in small bundles of 5-35 cells within the ventricularis or as individual cells scattered throughout the valvular layers in vivo, and were present in cells explanted from the valves in vitro. Colocalization of these proteins in semilunar heart valves was achieved with double-labeling experiments. Protein extraction, followed by coimmunoprecipitation, electrophoresis, and western blotting confirmed the immunochemical analysis and suggested that smooth muscle alpha-actin and smoothelin interact, as has been previously postulated. The presence of contractile smooth muscle within the valve may be an important factor in understanding valve pathology and in the design of tissue engineering efforts.

Adventitial myofibroblasts play no major role in neointima formation after angioplasty.

Abstract: Objective—Myofibroblasts migrating from adventitia have been suggested to constitute a majority of neointimal cells after angioplasty. We sought to examine this hypothesis by use of smoothelin, which is a marker for the quiescent smooth muscle cell (SMC) phenotype while not expressed by myofibroblasts. Design—Balloon angioplasty was performed in left iliac arteries of 25 rabbits that were killed after 3-56 days. Arterial cross-sections were immunostained for (X-actin (general marker), smoothelin (quiescent SMC phenotype), and Ki-67 (proliferative phenotype).Results—Adventitial cells became transiently actinpositive (myofibroblasts) but did not express smoothelin at any time point. In media, angioplasty induced transient proliferation and coinciding transient decrease in smoothelin expression. Neointimal cells, present 7 days after angioplasty, were initially proliferating and smoothelin-negative but changed to non-proliferating, smoothelin-positive cells after 56 days where 82 ± 10% of cells stain...

The origin of neointimal cells in the rat carotid artery after balloon angioplasty

Abstract: At present the issue of a possible role of circulating stem cells and precursors in pathological vascular wall remodeling after angioplasty remains unsolved. Therefore the origin of neointimal cells was examined in the rat carotid artery after balloon angioplasty using morphological and immunocytochemical approaches. It is shown that at the early stages (1-7 days) after vessel injury acute inflammatory response arises in the arterial wall recruiting neutrophils, monocytes, macrophages as well as large amounts of low-differentiated blood-derived cells. At the late stages (10-28 days), at the area of injured intima, a new hyperplastic intima (neointima) is formed, which consists of cells carrying specific smooth muscle markers--alpha-actin and smoothelin. The study on cell proliferative behaviour in the injured vessel wall by bromodeoxyuridine showed that in the process of neointima formation blood-born rather than resident cells are involved. Probably, early smooth muscle and endothelial precursor cells penetrate into injured area with blood stream, where they proliferative and differentiate into mature cells.