The lecticans are a family of chondroitin sulfate proteoglycans including aggrecan, versican, neurocan, and brevican. The C-terminal globular domains of lecticans are structurally related to selectins, consisting of a C-type lectin domain f lanked by epidermal growth factor and complement regulatory protein domains. The C-type lectin domain of versican has been shown to bind tenascin-R, an extracellular matrix protein specifically expressed in the nervous system, and the interaction was presumed to be mediated by a carbohydrate-protein interaction. In this paper, we show that the C-type lectin domain of brevican, another lectican that is specifically expressed in the nervous system, also binds tenascin-R. Surprisingly, this interaction is mediated by a protein-protein interaction through the fibronectin type III domains 3-5 of tenascin-R, independent of any carbohydrates or sulfated amino acids. The lectin domains of versican and other lecticans also bind the same domain of tenascin-R by protein-protein interactions. Surface plasmon resonance analysis revealed that brevican lectin has at least a 10-fold higher affinity than the other lectican lectins. Tenascin-R is coprecipitated with brevican from adult rat brain extracts, suggesting that tenascin-R and brevican form complexes in vivo. These results demonstrate that the C-type lectin domain can interact with fibronectin type III domains through protein-protein interactions, and suggest that brevican is a physiological tenascin-R ligand in the adult brain.
Protein kinase C (PKC) has been implicated in signaling induced by diverse sets of stimuli regulating growth, differentiation, and apoptosis. The present study focused on the fate of PKC isotype proteins during Fas-mediated apoptosis of human leukemic cell lines. Among the PKC isotypes expressed in different cell types, such as Jurkat, HPB-ALL, U937, and HL60, all the nPKC isotypes including nPKC6, nPKCE, and nPKCB, but not cPKCa and fl1 and aPKCC (n, c, and a represent novel, conventional and atypical, respectively), showed limited proteolytic cleavage during Fas-mediated apoptosis. The limited proteolysis of nPKC isotypes means the disappearance of the intact protein band concomitant with the appearance of two fragments, most likely containing the kinase and regulatory domains, in contrast to the so-called down-regulation known for both cPKC and nPKC isotypes following exposure to stimuli such as 12-0-tetradecanoyl-phorbol 13-acetate (TPA). The time course of Fas-mediated apoptosis in Jurkat cells parallels that of the activation of a 32-kDa cysteine protease (CPP32)-like protease and also closely parallels the proteolytic cleavage of nPKC isotypes. A peptide inhibitor of the CPP32-like protease, Ac-DEVD-CHO, blocked the proteolytic cleavage of nPKC isotypes as well as apoptosis mediated by Fas. Transfection of recombinant protein coding for the catalytic fragment of nPKCG to COSl cells resulted in the apoptotic morphology of cells and nuclei.The effect of TPA on apoptosis depends on the cell type. TPA significantly suppressed Fas-mediated apoptosis in Jurkat, whereas TPA alone caused apoptosis in HPB-ALL, U937, and HL60, only slight apoptosis in Jurkat. The proteolytic fragmentation of nPKC isotypes again closely correlated with the degree of apoptosis even in apoptosis induced by TPA. Separation of TPA-treated cells into apoptotic and non-apoptotic differentiating cells revealed that the proteolytic fragmentation of nPKC isotypes occurs only in apoptotic cells and, in adherent differentiating cells, nPKC isotypes as well as cPKCa were downregulated without the generation of nPKC fragments. These results are consistent with the idea that nPKC isotypes meet two different fates, down-regulation and proteolytic cleavage generating kinase and regulatory fragments, and that the proteolytic cleavage of nPKC isotypes is a step in the signaling pathway involved in Fas-mediated and TPA-induced apoptosis.
Inhibin, activin, and follistatin are three families of polypeptides originally isolated and characterized from ovarian follicular fluid based on their modulation of FSH release from pituitary cell culture. In addition to their effects on FSH synthesis and secretion, inhibin and activin have other biological functions. By contrast, the physiological significance of follistatin was obscure, until it was discovered that follistatin is a binding protein to activin. Since activin binds to follistatin, it is imperative to determine the nature of the activin/follistatin binding complex. Moreover, because inhibin contains a beta-subunit derived from activin, it is important to determine whether inhibin will also bind follistatin. Using a double-ligand blotting technique, we have determined that activin-A has two binding sites for follistatin, whereas inhibin-A has only one binding site for follistatin. Therefore, these results suggest that follistatin binds to both activin and inhibin through the common beta-subunit.
cDNA clones encoding a novel insulin-like growth factor-binding protein (IGFBP) purified from rat serum and human bone cell-conditioned medium have been isolated from rat liver and human placenta, liver, and ovary cDNA libraries. The deduced amino acid sequences of the cDNAs revealed a mature polypeptide consisting of 233 amino acids for the rat, while the human structure contains an additional four-amino acid sequence in the middle region of the molecule. This protein, now proposed to be named IGFBP-4, contains two extra cysteines compared with the previously characterized IGFBP-1, -2, and -3, but the alignment of the remaining 18 cysteines is conserved across the four IGFBPs. Amino acid sequence comparison among the four binding proteins within the rat species demonstrated that both the amino- and carboxy-terminal one thirds of the molecules are highly conserved, while the middle one third region, where no cysteines are present except for the two that exist in IGFBP-4, is the most divergent. The overall sequence homology among the four rat IGFBPs is very similar (53-59%), suggesting that their individual genes diverged from a single ancestral gene at about the same evolutionary time point. Northern analysis of the IGFBP-4 mRNA in rat tissue demonstrated that transcription of the IGFBP-4 gene is highly active in the liver, although a single 2.6-kilobase IGFBP-4 mRNA band was detectable in all tissues examined, including adrenal, testis, spleen, heart, lung, kidney, liver, stomach, hypothalamus, and brain cortex.
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