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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We examined surfactant secretion and its regulation by surfactant protein A (SP-A) in alveolar type II cells isolated from silica-treated rats to determine the role of SP-A-mediated regulatory control of phospholipid secretion in the pathogenesis of silica-induced alveolar proteinosis. Type II cells were isolated at weekly intervals for 28 d after silica or saline instillation. The maximum total binding of [125I]SP-A (internalized and surface-bound SP-A) to type II cells increased with time after silica instillation and, at 21 d, was 4-fold greater than that of type II cells isolated from saline-treated rats (272.8 +/- 42.5 and 65.4 +/- 9.8 ng/10(5) cells, respectively; P less than 0.05). Type II cells isolated from silica-treated rats showed a 2-fold increased surface binding and a 3-fold increased internalization compared to control cells. The receptor affinity for SP-A was the same for type II cells isolated from silica- and saline-treated animals. Type II cells isolated 14 d after silica instillation were separated into normotrophic and hypertrophic populations by centrifugal elutriation. Hypertrophic cells showed significantly elevated maximum total binding compared to normotrophic cells. The secretion of [3H]phosphatidylcholine [( 3H]PC) by type II cells from silica- and saline-treated animals was also compared. Type II cells from silica-treated animals showed lower basal and tetradecanoyl phorbol acetate (TPA)-stimulated [3H]PC secretion than cells from saline-treated animals at each time point after instillation. SP-A inhibited TPA-stimulated [3H]PC secretion similarly in type II cells isolated after either silica or saline instillation.(ABSTRACT TRUNCATED AT 250 WORDS)
Am J Respir Cell Mol Biol 1991 Mar
PMID:Alveolar type II cells isolated after silica-induced lung injury in rats have increased surfactant protein A (SP-A) receptor activity. 184 86

In the developing chick embryo tibia type X collagen is synthesized by chondrocytes from regions of hypertrophy and not by chondrocytes from other regions (Capasso, O., G. Tajana, and R. Cancedda, 1984, Mol. Cell. Biol. 4:1163-1168; Schmid, T. M., and T. F. Linsenmayer, 1985, Dev. Biol. 107:375-381). To investigate further the relationship between differentiation of endochondral chondrocytes and type X collagen synthesis we have developed a novel culture system for chondrocytes from 29-31-stage chick embryo tibiae. At the beginning of the culture these chondrocytes are small and synthesize type II and not type X collagen, but when grown on agarose-coated dishes they further differentiate into hypertrophic chondrocytes that synthesize type X collagen. The synthesis of type X collagen has been monitored in cultured cells by analysis of labeled collagens and in vitro translation of mRNAs. When the freshly dissociated chondrocytes are plated in anchorage-permissive dishes, most of the cells attach and dedifferentiate, as revealed by their fibroblastic morphology. Dedifferentiated chondrocytes, after several passages, can still reexpress the differentiated phenotype and continue their development to hypertrophic, type X collagen-synthesizing chondrocytes. Hypertrophic chondrocytes, when plated in anchorage permissive dishes, attach, maintaining the differentiated phenotype, and continue the synthesis of type X collagen.
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PMID:Type X collagen synthesis during in vitro development of chick embryo tibial chondrocytes. 371 Nov 47

Hypertrophic scarring (HSc) which frequently develops in patients following severe thermal injury is characterized by accumulation of extracellular matrix (ECM) proteins including type I and type III collagen. In this study, we examined the presence and quantity of IGF-1 mRNA transcripts in post-burn HSc. The results of dot blot experiments showed a 77.5% (100 +/- 8.15 vs 177.5 +/- 19, p < 0.01) increase in expression of IGF-1 IIIRNA in HSc tissue relative to normal dermis obtained from the same patients. A Northern blot analysis confirmed the specificity of the IGF-1 cDNA. This cDNA visualized four different transcripts with apparent sizes of 7.0, 3.9, 1.8 and 1.0 kb, similar to those previously reported. The possible fibrogenic role of IGF-1 was examined by analyzing the effect of this growth factor on the expression of mRNA for the pro alpha 1(I) chain of type I procollagen and the pro alpha 1(III) chain of type III procollagen in dermal fibroblasts. IGF-1 increased the expression of these transcripts as early as 6 h and the effect was maximal at 24 h. Quantitative analysis by densitometry showed a 149 and 166% increase in pro alpha 1(I) and pro alpha 1(III) mRNA after 24 h of IGF-1 treatment, respectively. This effect seems to be specific as the abundance of mRNA for the pro alpha 2(I) chain of type I procollagen or TIMP-II was unchanged.(ABSTRACT TRUNCATED AT 250 WORDS)
Mol Cell Biochem 1995 Jul 05
PMID:Enhanced expression of mRNA for insulin-like growth factor-1 in post-burn hypertrophic scar tissue and its fibrogenic role by dermal fibroblasts. 747 30

The changes in myocardial contractility and ventricular myosin isoenzymes were investigated in rats with pressure-overload cardiac hypertrophy as well as during its regression. Hypertrophic myocardium was obtained from rats with renovascular hypertension (Goldblatt rats), rats with abdominal aortic constriction (AC), and spontaneously hypertensive rats (SHR). Regression of cardiac hypertrophy was induced by lowering the blood pressure through nephrectomy on the affected side in Goldblatt rats, by opening the clip which constricted the abdominal aorta in AC rats, and by the administration of antihypertensive agents to SHR. The isometric developed tension of isolated left ventricular papillary muscles and the maximum rate of increase in the tension (dT/dtmax) were measured. Left ventricular myosin isoenzymes were separated by pyrophosphate gel electrophoresis. Isometric developed tension remained unchanged, but dT/dtmax was decreased in hypertrophic myocardium, although it recovered along with the regression of cardiac hypertrophy. The left ventricular myosin isoenzyme pattern was shifted towards V3 in hypertrophic myocardium, and shifted back again towards V1 with the regression of cardiac hypertrophy. These results indicate that relief of hemodynamic overload is one of the most important elements in the regression of cardiac hypertrophy and the associated physiological or biochemical alterations. However, other factors such as neurohumoral influences must also be taken into consideration.
Mol Cell Biochem 1993 Dec 22
PMID:Myocardial contractility and energetics in cardiac hypertrophy and its regression. 817 35

The aim of the present study was to characterize the receptor subtype and the second messenger involved in the newly discovered hypertrophic effect of beta-adrenoceptor stimulation in cultures of adult ventricular cardiomyocytes. Cardiomyocytes isolated from adult rats and cultured for 6 days in presence of 20% fetal calf serum (FCS) were used as experimental model. Hypertrophic responsiveness of cardiomyocytes was characterized by rate of protein synthesis, increase in protein mass, and increase in RNA content. The hypertrophic effect of the non-specific beta-adrenoceptor agonist isoprenaline was abolished in presence of a specific beta 2-adrenoceptor antagonist (ICI 118,551), could be mimicked by use of a beta 2-adrenoceptor agonist (procaterol) or direct stimulation of adenylate cyclase (forskolin) or addition of a cell-permeable analogue of cAMP (dibuytyrylcyclo-AMP). In presence of Rp-cAMPS, an inhibitor of protein kinase A, the hypertrophic effect of isoprenaline was abolished. The results indicate that the hypertrophic effect of beta-adrenoceptor stimulation is due to stimulation of beta 2-adrenoceptors and activation of adenylate cyclase and protein kinase A.
Mol Cell Biochem
PMID:Hypertrophic responsiveness to beta 2-adrenoceptor stimulation on adult ventricular cardiomyocytes. 897 59

Excess scar formation secondary to traumatic or surgical injuries can have devastating consequences, ranging from body disfigurement to organ dysfunction. Hypertrophic scars and keloids are skin fibrotic conditions that can be caused by minor insults to skin, such as acne or ear piercing, or by severe injuries such as burns. Differences between keloids, hypertrophic scars and normal scars include distinct scar appearance, histologic morphology and cellular function in response to growth factors. Recent advances in our understanding of the wound healing process reveal possible causes for hypertrophic scars and keloids. This information might assist in the development of efficacious treatment for hypertrophic scar and keloid formation.
Mol Med Today 1998 Jan
PMID:The molecular basis of keloid and hypertrophic scar formation. 949 66

Hypertrophic growth of cardiac muscle cells is induced by a variety of physiological and pathological stimuli and is associated with a number of changes, including activation of genes such as atrial natriuretic factor. We found that two serum response element (SRE)-like DNA elements, one of which does not meet the consensus sequence and binds serum response factor (SRF) with low affinity, regulate the activity of this promoter. Surprisingly, the ability to induce the promoter by two different physiologic stimuli, as well as various activated transcription factors, including SRF-VP16, was primarily dependent upon the nonconsensus rather than the consensus SRE. This SRE controls the induction of gene expression via an unusual mechanism in that it is required to allow some, but not all, active transcription factors at unrelated sites on the promoter to stimulate gene expression. Thus, in addition to regulation of SRF activity by growth stimuli, regulation of a low-affinity SRE element controls inducible gene expression by modulating the ability of other transcription factors to stimulate the transcription machinery.
Mol Cell Biol 1999 Mar
PMID:A low-affinity serum response element allows other transcription factors to activate inducible gene expression in cardiac myocytes. 1002 71

Hypertrophic stimulation of cardiac myocytes results in rapid induction of a number of transcription factors, including members of the AP-1 family, which is followed by a programmed alteration in the pattern of gene expression. In the ventricular cardiocytes there is re-expression of the fetal atrial natriuretic factor (ANF) gene and upregulation of its myosin light chain-2 (MLC-2v). The mechanism(s) by which the induction ofAP-1 is coupled to the promoters of these target genes is largely unknown. In this report, we demonstrate that in transient co-transfection assay, c-Jun inhibited while Jun B stimulated the MLC-2v promoter activity. Mutant c-Jun recombinants, in which the activation domains were deleted, still remained inhibitory, but a specific mutation in the leucine zipper, which changes the alignment of Jun with its dimerization partner, caused a reversal of its effect on the target MLC-2v promoter. Based on these findings, we propose that in chicken cardiac myocytes, the regulation of MLC-2v promoter by Jun may occur via its interaction with other proteins, possibly of the leucine zipper family.
Mol Cell Biochem 2001 Jan
PMID:Modulation of MLC-2v gene expression by AP-1: complex regulatory role of Jun in cardiac myocytes. 1126 56

Hypertrophic terminally differentiated cardiac myocytes show increased sarcomeric organization and altered gene expression. Previously, we established a role for the nonreceptor tyrosine kinase Src in signaling cardiac myocyte hypertrophy. Here we report evidence that p130Cas (Cas) and focal adhesion kinase (FAK) regulate this process. In neonatal cardiac myocytes, tyrosine phosphorylation of Cas and FAK increased upon endothelin (ET) stimulation. FAK, Cas, and paxillin were localized in sarcomeric Z-lines, suggesting that the Z-line is an important signaling locus in these cells. Cas, alone or in cooperation with Src, modulated basal and ET-stimulated atrial natriuretic peptide (ANP) gene promoter activity, a marker of cardiac hypertrophy. Expression of the C-terminal focal adhesion-targeting domain of FAK interfered with localization of endogenous FAK to Z-lines. Expression of the Cas-binding proline-rich region 1 of FAK hindered association of Cas with FAK and impaired the structural stability of sarcomeres. Collectively, these results suggest that interaction of Cas with FAK, together with their localization to Z-lines, is critical to assembly of sarcomeric units in cardiac myocytes in culture. Moreover, expression of the focal adhesion-targeting and/or the Cas-binding proline-rich regions of FAK inhibited ANP promoter activity and suppressed ET-induced ANP and brain natriuretic peptide gene expression. In summary, assembly of signaling complexes that include the focal adhesion proteins Cas, FAK, and paxillin at Z-lines in the cardiac myocyte may regulate, either directly or indirectly, both cytoskeletal organization and gene expression associated with cardiac myocyte hypertrophy.
Mol Biol Cell 2001 Aug
PMID:Focal adhesion kinase and p130Cas mediate both sarcomeric organization and activation of genes associated with cardiac myocyte hypertrophy. 1151 17

Familial hypertrophic cardiomyopathy (FHC), an autosomal dominant disorder caused by mutationally altered dominant-acting sarcomere proteins, exhibits significant clinical heterogeneity. To determine whether genetic background could influence the expression of this disease, we studied a murine model for this human condition. Hypertrophic responses to the Arg403Gln missense mutation in a cardiac myosin heavy chain gene were compared in 129SvEv (inbred; designated 129SvEv- alpha MHC403/+) and Black Swiss (outbred; designated BSw- alpha MHC403/+) strains. At 30-50 weeks of age all 129SvEv- alpha MHC403/+ showed left ventricular hypertrophy, while left ventricular wall thickness was increased in only half of BSw- alpha MHC403/+ mice demonstrating that a polymorphic modifier gene can determine the hypertrophic response to this dominant-acting sarcomere protein mutation. Further analysis suggests that SJL/J mice bear a recessive allele of this modifier gene that prevents a hypertrophic response to the Arg403Gln missense mutation. We conclude that genetic modifiers in mice, and presumably in man, can alter the hypertrophic response to sarcomere protein gene missense mutations.
J Mol Cell Cardiol 2001 Nov
PMID:A polymorphic modifier gene alters the hypertrophic response in a murine model of familial hypertrophic cardiomyopathy. 1170 49


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