Yves Eeckhout

In vivo and in vitro evidence for the involvement of cysteine proteinases in bone resorption

The excretion of cathepsin B, a lysosomal cysteine proteinase, by parathyroid hormone-stimulated embryonic mouse calvaria in culture, correlates closely with the extent of bone resorption evaluated by the loss of hydroxyproline and calcium and by the extension of resorption lacunae. E-64, a specific inhibitor of cysteine proteinases, inhibits reversibly the resorption of cultured bones without affecting the hormone-induced secretion of lysosomal hydrolases. Given in vivo to rats, the proteinase inhibitors, E-64 and leupeptin, both induce a concomitant fall in the serum calcium level and in the urinary excretion of hydroxyproline. These results provide evidence that cysteine proteinases, possibly lysosomal cathepsins, are necessary for bone resorption.

Progesterone regulates the activity of collagenase and related gelatinases A and B in human endometrial explants.

Explants of human endometrium were cultured to study the release of matrix metalloproteinases (MMPs). Analysis of conditioned media by zymography revealed latent and active forms of collagenase (MMP-1, EC 3.4.24.7), 72-kDa gelatinase A (MMP-2, EC 3.4.24.24), and 92-kDa gelatinase B (MMP-9, EC 3.4.24.35). These proteinases were identified by their M(r), their inhibition by tissue inhibitor of metalloproteinases, and the activation of their zymogens by trypsin or aminophenylmercuric acetate. In the absence of sex hormone, explants released large amounts of enzyme activities, as measured by densitometry of zymograms or in soluble assays. Physiological concentrations of progesterone (10-200 nM) almost totally abolished the release of collagenase, of total gelatinase activity, and of the active form of gelatinase B and largely inhibited the release of the active form of gelatinase A. These effects, which were antagonized by mifepristone (RU 38486), suggest that progesterone restrains endometrial tissue breakdown by blocking the secretion and activation of MMPs.

The effects of inhibitors of cysteine-proteinases and collagenase on the resorptive activity of isolated osteoclasts

The effects of specific inhibitors of cysteine-proteinases ((Z-Phe-Ala-CHN2: benzyloxycarbonyl-phenyl-alanyl alanyl diazomethane and E-64: trans-epoxy-succinyl-L-leucylamido(4-guanidino)-butane) and collagenase and collagenase ((Cl-1: N-(3-N-benzyloxycarbonyl amino-1-R-carboxypropyl)-L-leucyl-O-methyl-L-tyrosine N-methylamide) have been tested on the osteoclastic resorption of dentine. Chick osteoclasts were cultured in the presence or absence of 12.5 microM Z-Phe-Ala-CHN2, 40 or 60 microM E-64, or 40 or 100 microM Cl-1 for 1 or 2 days. In addition, osteoclasts were cultured on oyster shell calcitostracum with or without 12.5 microM Z-Phe-Ala-CHN2. Specimens were studied by light microscopy to count cells and resorption features and by scanning electron microscopy (SEM) stereophotogrammetry for the measurement of the depths, plan-areas and volumes of resorption pits. The numbers, depths and volumes (but not the plan-areas) of the resorption pits in dentine were significantly reduced by Z-Phe-Ala-CHN2 and E-64. Thus, for a given plan-area, the volumes and the depths of resorption pits were smaller in these experimental groups compared with control dentine specimens. The overall inhibition of resorption was at least 75%. Cl-1 did not have this inhibitory effect on the numbers or sizes of resorption pits in dentine. When the oyster calcitostracum was used as a substrate for the osteoclasts, Z-Phe-Ala-CHN2 did not reduce the numbers or volumes of pits, but increased the plan-areas and prevented the formation of deeper pits.(ABSTRACT TRUNCATED AT 250 WORDS)

Expression of interstitial collagenase (matrix metalloproteinase-1) is related to the activity of human endometriotic lesions

OBJECTIVE To determine whether interstitial collagenase (matrix metalloproteinase-1), known to play a pivotal role in the initiation of menstruation, contributes to the pathogenesis of endometriosis. DESIGN Serial sections of peritoneal red and black endometriotic lesions, ovarian endometriotic cysts, and rectovaginal adenomyotic nodules were analyzed by in situ hybridization for the expression of matrix metalloproteinase-1 by silver staining for the integrity of the fibrillar extracellular matrix and by immunolabeling for the abundance of sex steroid receptors. SETTING Academic hospital and research laboratory. PATIENT(S) Premenopausal women undergoing laparoscopy for endometriosis. INTERVENTION(S) Biopsy of endometriotic lesions, combined with endometrium whenever possible. MAIN OUTCOME MEASURE(S) Expression of matrix metalloproteinase-1 messenger RNA (mRNA). RESULT(S) Matrix metalloproteinase-1 mRNA was expressed focally in red peritoneal and ovarian endometriosis irrespective of the phase of the menstrual cycle but was not detectable in black peritoneal and rectovaginal lesions. Foci of matrix metalloproteinase-1 expression closely correlated with matrix breakdown and with the absence of P receptors in adjacent epithelial cells. CONCLUSION(S) Correlation of matrix metalloproteinase-1 expression with activity of endometriotic tissue suggests its involvement in tissue remodeling and bleeding, and possibly in the secondary shedding and reimplantation of endometriotic lesions.

Reelin, the extracellular matrix protein deficient in reeler mutant mice, is processed by a metalloproteinase

Reelin is the extracellular protein defective in reeler mice. It is believed that reelin acts via the extracellular matrix to influence the development of nearby neurons, but the mechanism remains thus far unknown. In the present work, we present in vivo and in vitro evidence that reelin is cleaved. This processing did not occur in Relnrl-Orl mutant mice in which reelin is not secreted and was prevented in explant cultures by brefeldin treatment, suggesting that it takes place extracellularly or in a postendoplasmic reticulum compartment. Reelin cleavage was inhibited by zinc chelators known to inhibit metalloproteinases but was unaffected by inhibitors of serine, cysteine, or aspartate proteinases. Furthermore, reelin cleavage was insensitive to inhibitors of matrixins, neprilysin, meprin, and peptidyl dipeptidase A, suggesting that the processing enzyme belongs to a different enzyme family. This enzyme and the physiological meaning of reelin processing remain to be characterized further.

Different collagenase gene products have different roles in degradation of type I collagen

Vertebrate collagenases, matrix metalloproteinases (MMPs), cleave type I collagen at a single helical locus. We show here that rodent interstitial collagenases (MMP-13), but not human fibroblast collagenase (MMP-1), cleave type I collagen at an additional aminotelopeptide locus. Collagenase cDNAs and chimeric constructs in pET-3d, juxtaposing MMP-13 sequences amino-terminal to the active site in the catalytic domain and MMP-1 sequences carboxyl-terminal and vice versa, were expressed in Escherichia coli. Assays utilized collagen from wild type (+/+) mice or mice that carry a targeted mutation (r/r) that encodes substitutions in α1(I) chains that prevent collagenase cleavage at the helical locus. MMP-13 and chimeric molecules that contained the MMP-13 sequences amino-terminal to the active site cleaved (+/+) collagen at the helical locus and cleaved cross-linked (r/r) collagen in the aminotelopeptide (β components converted to α chains). Human MMP-1 and chimeric MMP-1/MMP-13 with MMP-1 sequences amino-terminal to the active site cleaved collagen at the helical locus but not in the aminotelopeptide. All activities were inhibited by TIMP-1, 1,10-phenanthroline, and EDTA. Sequences in the distal two-thirds of the catalytic domain determine the aminotelopeptide-degrading capacity of MMP-13.

Cloning and sequencing of mouse collagenase cDNA. Divergence of mouse and rat collagenases from the other mammalian collagenases.

Mouse collagenase cDNA was cloned and sequenced. The deduced amino acid sequence was compared to those of the other mammalian collagenases and related matrix metalloproteinases. These comparisons, as well as those of some enzymatic properties, show that the rodent (mouse and rat) interstitial collagenases are very similar but differ more from the other interstitial collagenases than does human neutrophil collagenase. This supports the hypothesis that the order Rodentia is an outgroup to the other eutherian (placental) mammalian orders.

A New Synthetic Inhibitor of Mammalian Tissue Collagenase Inhibits Bone-resorption in Culture

A specific and potent synthetic inhibitor of mammalian tissue collagenase and related metallo-proteinases inhibits the collagen matrix resorption induced by parathyroid hormone (PTH) in cultured embryonic mouse calvaria. The inhibition is reversible, dose-dependent and virtually complete at 50 microM inhibitor concentration whereas that due to a less potent stereoisomer is much weaker. The PTH-enhanced secretion of calvarial lysosomal enzymes and the small spontaneous leakage of lactate dehydrogenase are not affected by the inhibitor. These results suggest that collagenase plays a critical role in bone resorption. Its role is discussed in relation to that of cysteine-proteinases that have also been implicated in this process.

Involvement of Fibronectin Type II Repeats in the Efficient Inhibition of Gelatinases A and B by Long-chain Unsaturated Fatty Acids

The matrix metalloproteinases gelatinase A (MMP-2) and gelatinase B (MMP-9) are implicated in the physiological and pathological breakdown of several extracellular matrix proteins. In the present study, we show that long-chain fatty acids (e.g. oleic acid, elaidic acid, and cis- and trans-parinaric acids) inhibit gelatinase A as well as gelatinase B with K i values in the micromolar range but had only weak inhibitory effect on collagenase-1 (MMP-1), as assessed using synthetic or natural substrates. The inhibition of gelatinases depended on fatty acid chain length (with C18 > C16, C14, and C10), and the presence of unsaturations increased their inhibitory capacity on both types of gelatinase. Ex vivoexperiments on human skin tissue sections have shown that micromolar concentrations of a long-chain unsaturated fatty acid (elaidic acid) protect collagen and elastin fibers against degradation by gelatinases A and B, respectively. In order to understand why gelatinases are more susceptible than collagenase-1 to inhibition by long-chain fatty acids, the possible role of the fibronectin-like domain (a domain unique to gelatinases) in binding inhibitory fatty acids was investigated. Affinity and kinetic studies with a recombinant fibronectin-like domain of gelatinase A and with a recombinant mutant of gelatinase A from which this domain had been deleted pointed to an interaction of long-chain fatty acids with the fibronectin-like domain of the protease. Surface plasmon resonance studies on the interaction of long-chain fatty acids with the three individual type II modules of the fibronectin-like domain of gelatinase A revealed that the first type II module is primarily responsible for binding these compounds.

Circulating Ovarian Steroids and Endometrial Matrix Metalloproteinases (MMPs)

Abstract: Recent studies strongly suggest that matrix metalloproteinases (MMPs) play a key role in the initiation of menstrual bleeding in the human endometrium upon the fall of ovarian steroid serum concentrations by inducing the degradation of the extracellular matrix of this mucosa. MMPs are also involved in abnormal endometrial bleeding and have been identified in endometriotic foci. In all cases, they are associated with areas of extracellular matrix breakdown. This paper reviews the literature on the regulation by estradiol and progesterone of the expression and activation of MMPs, and of the expression of their tissue inhibitors (TIMPs), (i) in the endometrium in situ during normal cycle, (ii) during artificial cycles in spayed monkeys, and (iii) in cultures of endometrial explants or purified cells. Whereas progesterone consistently decreases the activity of endometrial MMPs, its effects vary in intensity, duration, and pattern between MMPs as well as among experimental systems. The contribution and limitations of the various investigations are therefore discussed. The focal heterogeneity points to additional local controls of the expression and activation of MMPs in human endometrium, acting beyond the general inhibitory role of progesterone, for example, by cytokines. Focal changes in type or abundance of sex steroid receptors also could be responsible for spatial variation in the expression of MMPs in the endometrium and endometriotic lesions.