Insulin-like growth factor (IGF)-I is markedly induced after balloon injury in the rat aorta, where it may serve to mediate vascular repair. Because the bioavailability of IGF-I is modulated by IGF-binding proteins (IGFBPs), we examined the regulation of IGFBPs by IGFs in primary cultures of rat aortic smooth muscle cells (SMCs). Serumdeprived SMC-conditioned medium contains IGFBPs of 38 to 45 kD (only in confluent cultures), 30 kD (possibly IGFBP-2), 28 kD, and 24 kD (IGFBP-4), the latter being the most abundant. IGF-I and IGF-II but not insulin evoked a marked decrease of IGFBP-4 as early as 4 hours after treatment.IGFBP-4 mRNA abundance, however, was entirely unaffected by IGF-I for up to 48 hours. IGF-I analogues with high affinity for the IGF-I receptor and weak affinity for IGFBP paradoxically evoked a small increase in IGFBP-4, probably through a general increase in protein synthesis. IGF-I only minimally decreased IGFBP-4 content in medium of sparse cultures, whereas it completely abolished IGFBP-4 content in conditioned medium of superconfluent SMCs. IGF-I also evoked a concentration-dependent increase in the abundance of IGFBP-3 in confluent, but not sparse, SMCs without affecting IGFBP-3 mRNA. Addition of IGF-I to cell-free medium V urascular smooth muscle cells (SMCs) provide structure and elasticity to the vessel wall.Under normal conditions, the replication rate of arterial SMCs is <0.2%. When subjected to pathological stimuli, such as occur in the formation of the atherosclerotic lesion, or after intravascular injury, SMCs regain the ability to proliferate.1-5 It has become increasingly apparent that SMC migration and proliferation is controlled to a great extent in a paracrine fashion.6,7 Indeed, SMCs can autoregulate their growth characteristics both in vivo and in vitro by elaborating growth factors, modulating the population of growth factor receptors in the plasma membrane, and influencing the composition of the extracellular matrix that surrounds them.8-17Received April 27, 1993; accepted December 1, 1993 conditioned by confluent, but not by sparsely cultured, SMCs led to rapid degradation of IGFBP-4. Interestingly, IGFBP-4 mRNA was markedly induced in confluent relative to sparsely grown SMCs in an IGF-I independent fashion. Thus, both biosynthesis and IGF-dependent proteolysis of IGFBP-4 are increased in confluent SMCs. Proteolysis was maximal at 37°C and was abrogated by EDTA and by benzamidine. Phenylmethylsulfonyl fluoride and the plasmin inhibitor bdellin had minor inhibitory activity, whereas aprotinin, angiotensin-converting enzyme inhibitors, and N-ethylmaleimide were without effect. The protease does not affect the structure of IGF-I as determined by reverse-phase high-performance liquid chromatography and size-exclusion chromatography of '251-IGF-I incubated for up to 24 hours with SMC-conditioned medium containing IGFBP-4. In summary, SMCs elaborate a cationdependent protease in a confluence-dependent fashion, which degrades bound IGFBP-4 and likely releases free structu...
Platelet-derived growth factor (PDGF) is believed to be a critical mediator of vascular smooth muscle cell (SMC) proliferation. Because insulin-like growth factor (IGF) I (IGF-I) functions as a progression factor for the mitogenic effects of PDGF, we hypothesized that IGF-I gene expression and the production of IGF binding proteins (IGFBPs) by cultured rat aortic SMCs might be regulated by one or more of the three isoforms of PDGF: PDGF-AA, -BB, and -AB. IGF-I gene expression was highly dependent on cell density: IGF-I mRNA transcripts decreased markedly as a function of cell confluence. IGF-I mRNA content was inhibited to a similar degree by PDGF-AA, -BB, and -AB through a mechanism requiring protein synthesis. The inhibition was readily apparent at 4 hours, reaching approximately 25% of control levels after 24 hours. Radioimmunoassayable IGF-I was only barely detectable in SMC-conditioned serum-free medium and not significantly modulated by PDGF. Western ligand blot revealed that vascular SMCs release 30-kd and 24-kd IGFBP into serum-free conditioned medium. PDGF isoforms did not significantly alter release of the 30-kd IGFBP but evoked a fivefold to sixfold increase in the 24-kd IGFBP. The 24-kd IGFBP was found to comigrate with IGFBP-4, a recently identified binding protein that inhibits IGF action. The 30-kd protein was not merely a glycosylated form of IGFBP-4, because it was not sensitive to N-glycanase digestion. PDGF-AA, -BB, and -AB markedly induced expression of IGFBP-4 mRNA in a time- and concentration-dependent fashion. Vascular SMCs also express IGFBP-2 mRNA, but its abundance was not induced by PDGF. In conclusion, PDGF evokes a complex pattern of regulation of genes in the IGF/IGFBP system. By inhibiting IGF-I production and specifically inducing biosynthesis of the inhibitory binding protein IGFBP-4, PDGF may set in motion mechanisms to limit the final magnitude of the mitogenic response.
PTH-related peptide (PTHrP), the factor mediating the syndrome of humoral hypercalcemia of malignancy, is also expressed in smooth muscle cells (SMC) of the urinary bladder and uterus in response to mechanical distention and fetal occupancy, respectively. Vascular SMC also produce PTHrP, and its expression is induced by serum and vasoconstrictors, such as angiotensin-II. To determine whether mechanical distension affected vascular PTHrP gene expression, the abdominal aorta of adult male rats was balloon-distended, and aortae were collected at various times after the intervention. PTHrP mRNA was determined by competitive reverse transcriptase-polymerase chain reaction, using sequential dilutions of a cloned internally truncated PTHrP RNA fragment as standard. The molar concentration of PTHrP mRNA was obtained by extrapolating at a standard/wild-type band intensity ratio of 1:1. Aortic PTHrP mRNA was induced from a basal level of 19, to 22, 46, 36, 13, 12, 22, and 20 attamoles/mg total RNA 1, 2, 12, 24, and 48 h and 7 and 48 days after balloon distension, respectively. To determine whether mechanical events directly regulate vascular PTHrP gene expression, primary rat aortic SMC were plated and placed on a rocking device at 20 oscillations/min to create a gentle flowing motion of the culture medium. Rocking induced PTHrP mRNA of SMC exposed to either serum-free medium or 10% serum by 2.5-and 4.0-fold at 4 h, and 2.9- and 3.7-fold at 24 h, respectively. These effects were oscillation rate dependent, potentiated by angiotensin-II, and specific, as similar changes were not observed in alpha-actin mRNA content. Flow motion-induced PTHrP mRNA at 24 h was partially decreased by 10(-6) M colchicine (which inhibits microtubule assembly), but not by cytochalasin-E (which disrupts actin polymerization). As PTHrP is a known vasorelaxant, we propose that mechanical events induce the release of PTHrP by SMC, possibly to serve as a compliance factor or an agent for vascular remodeling.
Recent studies support a critical role for the paracrine IGF/IGF-binding protein system in the regulation of vascular smooth muscle cell growth. In this study we have explored the hypothesis that the abundance of individual IGF-binding proteins in smooth muscle is subject to regulation during postnatal life and in response to injury. IGF-binding protein-2 was the predominant binding protein secreted by neonatal rat vascular smooth muscle cells, whereas IGF-binding protein-4 was most prevalent in adult vascular smooth muscle cells coincident with increased IGF-binding protein-4 protease activity. After arterial injury, IGF-binding protein-4 mRNA increased, associated with greater IGF-binding protein-4 proteolytic activity, resulting in stable steady state levels of the IGF-binding protein-4 protein. Expression of pregnancy-associated plasma protein A mRNA, recently identified as an IGF-binding protein-4 protease, was expressed at higher levels in adult than neonatal vascular smooth muscle cell lines, but did not change significantly after arterial injury. The peak of immunoreactive pregnancy-associated plasma protein A from hydrophobic interaction chromatography fractions of smooth muscle cell-conditioned medium coincided, but did not fully overlap, with the fractions containing maximal IGF-binding protein-4 protease activity. In conclusion, our data point to a developmental switch from IGF-binding protein-2 to IGF-binding protein-4 in vascular smooth muscle cells postnatally. Moreover, IGF-binding protein-4 expression is coregulated with IGF-binding protein-4 protease activity, suggesting that biosynthesis and degradation of this binding protein are coordinated events important for regulating biological activity of IGF-I.
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