Detection of TIMP-2-like protein in Atlantic cod (Gadus morhua) muscle using two-dimensional real-time reverse zymography

Matrix metalloproteinases (MMPs) have been proposed to participate in postmortem degradation of fish muscle connective tissues during storage. In the extracellular matrix (ECM) of mammals, a group of specific tissue inhibitors of metalloproteinases (TIMPs) contributes in regulating the MMPs present. However, little information exists on the presence of TIMPs in fish. In this paper, the presence of TIMPs in the muscle of Atlantic cod (Gadus morhua) was investigated using gelatin affinity chromatography, real-time reverse zymography (RTRZ) and mass spectrometry (MS). Using RTRZ inhibitory action against cod muscle, proteinases binding to gelatin were detected in the muscle. The inhibitor had similar molecular weight (21 kDa) as a human recombinant TIMP-2 used as a reference sample. Because isoforms of TIMP-2 homologues with similar molecular weight have been suggested in fish, a two-dimensional RTRZ (2D RTRZ) method was designed. The new method showed the existence of only one form with inhibitory action against cod muscle proteinases. Finally, de novo sequencing of two peptides derived from the cod muscle inhibitor showed high homology to TIMP-2s both from human and other teleosts.     

The endocrinology of 1α-hydroxycorticosterone in elasmobranch fish: a review

The endocrine underpinnings of the stress response in fish have been the subject of intense research for well over 50years. Much of the research has focussed on teleost fish and so the endocrine mechanisms for cortisol production, transport and action at the target site have received significant attention. However, corticosteroidogenesis in elasmobranchs is exceptional on a number of levels. Unlike teleost fish the interrenal tissue is anatomically distinct from both renal and chromaffin (catecholamine producing) tissue; further the final product, 1α-hydroxycorticosterone (1α-OH-B), is unique to chondrichthyans where the carbon atom at position 1 of corticosterone has a hydroxyl group attached in the α orientation. The homologous nature of interrenal tissue in elasmobranchs presents an obvious advantage in the study of corticosteroidogenesis, however, the unique chemical nature of 1α-OH-B has presented distinct disadvantages as it has proven to be difficult to synthesise, and therefore studies examining the mineralocorticoid and glucocorticoid actions of this steroid are limited. Over the last decade molecular techniques have provided significant insight in the involvement of corticosteroiogenic enzymes in the elasmobranch interrenal in addition to the evolution of corticosteroid receptors. Given the number of excellent reviews focussing on the role of cortisol in the stress response of teleost fish, this short review aims to synthesise the endocrine basis for the synthesis, release, and action, of the enigmatic 1α-OH-B in elasmobranch fish.     

Investigating the Impact of Chronic Atrazine Exposure on Sexual Development in Zebrafish

Atrazine (ATZ) is a selective triazine herbicide used primarily for preemergent weed control in corn, sorghum, and sugar cane production. It is one of the most widely used herbicides in North America. Some research published over the last decade suggests that chronic exposure to environmentally relevant ATZ concentrations can adversely impact gonadal development and/or sexual differentiation in amphibians and fish, while other studies report no effect, or moderate effects. As a result, contrasting conclusions have been published regarding the potential effects of the herbicide ATZ on aquatic species. Two near‐identical 4‐month studies in 2009 (Study I) and 2010 (Study II) were performed investigating the potential for chronic ATZ exposure to affect zebrafish (Danio rerio) sexual development and differentiation. Zebrafish were chronically exposed to 0, 0.1, 1, 10 μM ATZ or 1 nM 17ß‐estradiol (E2). Fish were histologically examined to assign gender and to evaluate potential impacts of E2 or ATZ on gonadal development. Exposure to E2 consistently resulted in a significantly higher proportion of female fish to normal male fish when compared to unexposed fish (both studies). In both studies, ATZ exposure did not significantly influence the percentage of female or male fish when compared to unexposed fish. A greater percentage of abnormally developed male fish and fish lacking differentiated gonadal tissue was observed in Study II E2 exposures but not in ATZ exposures. Together, these studies indicate that long‐term exposure to ATZ at or above environmentally relevant concentrations does not significantly impact zebrafish gonadal development or sexual differentiation.     

The role of TIMPs in regulation of extracellular matrix proteolysis

Tissue inhibitors of metalloproteinases (TIMPs), which inhibit matrix metalloproteinases (MMPs) as well as the closely related, a disintegrin and metalloproteinases (ADAMs) and ADAMs with thrombospondin motifs (ADAMTSs), were traditionally thought to control extracellular matrix (ECM) proteolysis through direct inhibition of MMP-dependent ECM proteolysis. This classical role for TIMPs suggests that increased TIMP levels results in ECM accumulation (or fibrosis), whereas loss of TIMPs leads to enhanced matrix proteolysis. Mice lacking TIMP family members have provided support for such a role; however, studies with these TIMP deficient mice have also demonstrated that loss of TIMPs can often be associated with an accumulation of ECM. Collectively, these studies suggest that the divergent roles of TIMPs in matrix accumulation and proteolysis, which together can be referred to as ECM turnover, are dependent on the TIMP, specific tissue, and local tissue environment (i.e. health vs. injury/disease). Ultimately, these combined factors dictate the specific metalloproteinases being regulated by a given TIMP, and it is likely the diversity of metalloproteinases and their physiological substrates that determines whether TIMPs inhibit matrix proteolysis or accumulation. In this review, we discuss the evidence for the dichotomous roles of TIMPs in ECM turnover highlighting some of the common findings between different TIMP family members. Importantly, while we now have a better understanding of the role of TIMPs in regulating ECM turnover, much remains to be determined. Data on the specific metalloproteinases inhibited by different TIMPs in vivo remains limited and must be the focus of future studies.     

Presence,localization and morphology of TELOCYTES in developmental gonads of fishes

Telocytes are a new defined type of interstitial cells, considered as a stem cell, with very long and thin cytoplasmic extensions. They are present in the vertebrates, and may participate in tissue remodeling. In fish, during gonadal development, the events that culminate with the germinal epithelium formation are well known. However, the interstitial compartment remains poorly explored, although it may have a great contribution to the morpho-functional changes that occur in the gonad. As in other organisms, in fish, the interstitium consists especially of connective tissue elements. However, until now, there are no reports of the presence and the action of the telocytes in the connective tissue of gonads of fish. Thus, this study aimed to detect the presence, localization and morphology of telocytes during the gonadal development of several species of fish. The gonads were analyzed by light microscopy, transmission electron microscopy and immunohistochemistry for localization of CD34, Vimentin, and metalloproteinases. The presence of two proteins characteristics of mesenchymal cell was detected in cells of the gonads of all species. In addition, they presented a typical morphology of telocytes, showing cellular extensions. Gonadal telocytes also presented positive response to metalloproteinases. In mammals, telocytes can undergo de-differentiation contributing to the reorganization of the extracellular matrix. This role may be performed by the metalloproteinases detected here. The detection of Vimentin and CD34 in the same cellular type, associated with its morphological characteristics, allows us to conclude that some interstitial cells in Teleostei are considered telocytes, identical to the ones already described in mammals and other vertebrates.     

Do metalloproteinases destabilize vulnerable atherosclerotic plaques?

PURPOSE OF REVIEW: Atherosclerotic plaque rupture and thrombosis underlie most myocardial infarctions. Matrix metalloproteinases are a family of enzymes that remodel the extracellular matrix. Metalloproteinases could stabilize rupture-prone plaques by promoting smooth muscle cell migration and proliferation. Alternatively, metalloproteinases could destabilize vulnerable plaques by promoting matrix destruction, angiogenesis, leucocyte infiltration, and apoptosis. Evidence is reviewed from genetically modified mice and human biomarker and genetic studies that sheds light on this dual role of metalloproteinases. RECENT FINDINGS: Inhibition of metalloproteinases in mice using tissue inhibitors of metalloproteinases increases plaque stability; however, double knockouts of apolipoprotein E with matrix metalloproteinase 2, 3, 7, 9, 12, and 13 have more or less stable plaques, consistent with harmful or protective effects of individual metalloproteinases. Overexpression studies in mice or rabbits show that high activities of matrix metalloproteinase 9 and 12 decrease stability. Biomarker and human genetic studies demonstrate that increased metalloproteinase activity is associated with vascular repair or myocardial infarction. SUMMARY: Recent studies reinforce evidence for a dual role of matrix metalloproteinases in plaque stabilization and rupture, which probably depends on the stage, site, and severity of disease. Dysregulated metalloproteinase activity in end-stage coronary artery disease appears a valid target for therapy.     

The cell surface: the stage for matrix metalloproteinase regulation of migration

Matrix metalloproteinases are important for the turnover of extracellular matrix in tissue. Recent studies have expanded their roles well beyond extracellular matrix degradation - they also cleave many growth factors, cytokines and cell adhesion molecules in the extracellular milieu, modulating their functions irreversibly. In particular, some matrix metalloproteinases that associate with the cell surface have arisen as intriguing regulators of cellular functions, including migration.     

Engineered sarafotoxins as tissue inhibitor of metalloproteinases-like matrix metalloproteinase inhibitors

The sarafotoxins and endothelins are approximately 25-residue peptides that spontaneously fold into a defined tertiary structure with specific pairing of four cysteines into two disulfide bonds. Their structures show an interesting topological similarity to the core of the metalloproteinase interaction sites of the tissue inhibitors of metalloproteinases. Previous work indicates that sarafotoxins and endothelins can be engineered to eliminate or greatly reduce their vasopressive action and that their structural framework can withstand multiple sequence changes. When sarafotoxin 6b, which possesses modest matrix metalloproteinase inhibitory activity, was C-terminally truncated to remove its toxic vasopressive activity, the metalloproteinase inhibitory activity was essentially abolished. However, further changes, based on the sequences of peptides selected from libraries of sarafotoxin variants or suggested by analogy with tissue inhibitors of metalloproteinases, progressively enhanced the matrix metalloproteinase inhibitory activity. Peptide variants with multiple substitutions folded correctly and formed native disulfide bonds. Improvements in matrix metalloproteinase affinity have generated a peptide with micromolar K(i) values for matrix metalloproteinase-1 and -9 that are selective inhibitors of different metalloproteinases. Characterization of its solution structure indicates a close similarity to sarafotoxin but with a more extended C-terminal helix. The effects of N-acetylation and other changes, as well as docking studies, support the hypothesis that the engineered sarafotoxins bind to matrix metalloproteinases in a manner analogous to the tissue inhibitors of metalloproteinases.     

The isolated N-terminal domains of TIMP-1 and TIMP-3 are insufficient for ADAM10 inhibition

ADAM (a disintegrin and metalloproteinase) 10 is a key member of the ADAM family of disintegrin and metalloproteinases which process membrane-associated proteins to soluble forms in a process known as 'shedding'. Among the major targets of ADAM10 are Notch, EphrinA2 and CD44. In many cell-based studies of shedding, the activity of ADAM10 appears to overlap with that of ADAM17, which has a similar active-site topology relative to the other proteolytically active ADAMs. The tissue inhibitors of metalloproteinases, TIMPs, have proved useful in the study of ADAM function, since TIMP-1 inhibits ADAM10, but not ADAM17; however, both enzymes are inhibited by TIMP-3. In the present study, we show that, in comparison with ADAM17 and the MMPs (matrix metalloproteinases), the N-terminal domains of TIMPs alone are insufficient for the inhibition of ADAM10. This knowledge could form the basis for the design of directed inhibitors against different metalloproteinases.     

Ethical considerations in fish research

Fishes are used in a wide range of scientific studies, from conservation research with potential benefits to the species used to biomedical research with potential human benefits. Fish research can take place in both laboratories and field environments and methods used represent a continuum from non-invasive observations, handling, through to experimental manipulation. While some countries have legislation or guidance regarding the use of fish in research, many do not and there exists a diversity of scientific opinions on the sentience of fish and how we determine welfare. Nevertheless, there is a growing pressure on the scientific community to take more responsibility for the animals they work with through maximising the benefits of their research to humans or animals while minimising welfare or survival costs to their study animals. In this review, we focus primarily on the refinement of common methods used in fish research based on emerging knowledge with the aim of improving the welfare of fish used in scientific studies. We consider the use of anaesthetics and analgesics and how we mark individuals for identification purposes. We highlight the main ethical concerns facing researchers in both laboratory and field environments and identify areas that need urgent future research. We hope that this review will help inform those who wish to refine their ethical practices and stimulate thought among fish researchers for further avenues of refinement. Improved ethics and welfare of fishes will inevitably lead to increased scientific rigour and is in the best interests of both fishes and scientists.     

Secretion of metalloproteinases by stimulated capillary endothelial cells. II. Expression of collagenase and stromelysin activities is regulated by endogenous inhibitors

Rabbit brain capillary endothelial cells treated with 12-O-tetradecanoylphorbol-13-acetate produce the metalloproteinases, procollagenase and prostromelysin, as up to 20% of their total secreted protein. However, little or no catalytic activity of these enzymes can be found after treatment with either trypsin or an organomercurial agent, which are able to activate the proenzymes in the medium from stimulated rabbit fibroblasts. We now have shown that enzyme activities of procollagenase and prostromelysin are revealed after conditioned medium is analyzed by gel filtration chromatography or by electrophoresis on sodium dodecyl sulfate-substrate gels. In both systems, the metalloproteinases were separated from metalloproteinase inhibitors. The major inhibitor of Mr = 30,000 from capillary endothelial cells was immunologically identical with the rabbit tissue inhibitor of metalloproteinases. Two additional inhibitors of metalloproteinases at Mr = 22,000 and 19,000 were also observed. Inhibitors were present in the conditioned medium from rabbit fibroblasts in much lower quantities and were also qualitatively different. When gel filtration chromatography was used to remove the tissue inhibitor of metalloproteinases from medium conditioned by stimulated capillary endothelial cells, both activatable procollagenase and prostromelysin were readily demonstrable. These data suggest that endogenous inhibitors regulate the expression of metalloproteinases secreted by endothelial cells.     

Metalloproteinase inhibitors from bovine cartilage and body fluids

Inhibitors of the mammalian metalloproteinases, collagenase, proteoglycanase and gelatinase were isolated from bovine cartilage (extracts and culture medium) and bovine amniotic fluid and serum. These inhibitors either bind or do not bind to concanavalin-A--Sepharose, with Mr (gel filtration) of about 30 000 and 20 000, respectively. Cartilage and chondrocyte culture media contained only concanavalin-A-binding inhibitors whereas cartilage extracts contained only a non-binding inhibitor: serum and amniotic fluid contained both forms of inhibitory activities. In moist biochemical respects, particularly in their abilities to inhibit metalloproteinases, all of the inhibitors were found to be similar. It is concluded that the forms of the inhibitors that differ in Mr may be closely related to the tissue inhibitor of metalloproteinases (TIMP) previously purified from rabbit and human sources. These findings help to clarify other studies on collagenase inhibitors and support the concept that TIMP-like inhibitors may be important in the control of connective tissue degradation.     

Tissue distribution, inhibition and activation of gelatinolytic activities in Atlantic cod (Gadus morhua)

Gelatinolytic activities in fish tissues with properties like matrix metalloproteinases (MMPs) have been paid little attention. However, they have been proposed to participate in post mortem degradation during storage and the disintegration of pericellular connective tissue during spawning. In this paper the distribution of gelatinolytic activities in liver, heart, muscle, gill, and male and female gonad of Atlantic cod (Gadus morhua) was studied by using gelatin SDS-PAGE, proteinase inhibitors, gelatin and lentil lectin Sepharose affinity chromatography. The amount of gelatin degrading enzymes varied from tissue to tissue. Most of the gelatin binding enzymes were found to be matrix metalloproteinases by adding galardin, a broad range MMP inhibitor, to the incubation buffer. A 72 kDa form of cod gelatin degrading enzyme had properties similar to human proMMP-2, as it could be activated by p-aminophenylmercuric acetate and trypsin. Like the human MMP-2 it did not bind to lentil lectin. An 83 kDa cod gelatin degrading enzyme had properties similar to the 92 kDa progelatinase B (proMMP-9). These properties were also similar to that of the 72 kDa form, except that the 83 kDa cod gelatinase was bound to lentil lectin, showing that it is a glycoprotein like MMP-9.     

鱼类脂肪与脂肪酸的转运及调控研究进展

由于鱼油资源短缺, 植物油在水产饲料中广泛使用。然而, 随之而来的鱼体脂肪异常沉积等问题也日益突出, 严重危害养殖鱼类健康。脂肪的沉积是一个复杂的过程, 主要包括脂肪的合成、转运和分解。到目前为止, 在鱼类中已经进行了大量关于植物油替代鱼油影响脂肪沉积的研究。但是, 这些研究主要集中于脂肪的合成和分解, 有关脂肪转运的研究十分缺乏。脂肪转运不仅是影响组织脂肪沉积的重要因素, 而且在机体脂稳态和能量平衡中起着重要作用。因此综述了鱼类脂蛋白的种类和组成, 鱼类对脂肪和脂肪酸的转运, 营养因素对脂肪和脂肪酸转运的影响, 指出了脂类转运研究的重要性和紧迫性, 并且提出了未来需要努力的方向。     

Dexamethasone selectively modulates basal and lipopolysaccharide-induced metalloproteinase and tissue inhibitor of metalloproteinase production by human alveolar macrophages.

To define the capacity of glucocorticoids to regulate tissue damage associated with inflammation more clearly, we have studied the effects of dexamethasone on human alveolar macrophage secretion of both a variety of metalloproteinases and also the counter-regulatory tissue inhibitor of metalloproteinases (TIMP). We found that dexamethasone selectively and coordinately inhibited expression of the following human metalloproteinases: interstitial collagenase, stromelysin, and the 92-kDa type IV collagenase, as well as TIMP. Both basal and LPS-stimulated cells exhibited similar degrees of inhibition, with greater than 50% decrease in secretion of all enzymes and TIMP observed at dexamethasone concentrations of greater than or equal to 10(-8) M in serum-containing medium. The effects of dexamethasone were mediated at a pretranslational level. In summary, our results indicate that glucocorticoids suppress the matrix-degrading phenotype that is characteristic of mature human mononuclear phagocytes, and block the effects of the most potent known signal for upregulation of metalloproteinase secretion. Similar actions in vivo would serve to limit tissue damage associated with the inflammatory response.     

Molecular characterization of cell types in the developing,mature, and regenerating fish retina

The fish retina has become a powerful model system for the study of different aspects of development and regeneration. An important aspect in understanding retinal anatomy and function is to trace the development of various cell types during embryonic stages. Several markers that detect the cessation of proliferative activity have been used in studies of cellular birth days, in order to follow the temporal progression of retinogenesis. Moreover, by using cell type-specific markers, the onset of differentiation can be determined by identifying the earliest time points for which immunolabeling is observed. Additionally, fish retinal regeneration research holds the potential of providing new avenues for the treatment of degenerative diseases of the retina. Retinal markers constitute powerful tools in studies of retinal regeneration, because they allow characterization of the cell types involved in nerve tissue regeneration, providing insights into different aspects of this process. In this review, after presenting several structural and histological aspects of the mature and developing fish visual system, data on the use of various neurochemical markers specifically indicating cell types of the fish neural retina are summarized. This will be done through a review of the pertinent literature, as well as by drawing on our own experience gathered through recent studies on fish retinogenesis.     

运输过程中水质和鱼类生理指标的变化及运输控制策略

鱼类运输应激是世界范围内面临的重要问题, 标准化运输操作规程的制定有利于水产养殖业的健康发展。血浆皮质醇是经典的应激评价指标, 在运输过程中持续上升, 适用于鱼类短途和长途运输, 而血糖则更适用于鱼类短途运输。乳酸、CO₂、渗透压等生理指标也应更多的被应用于运输应激评价。水质恶化(尤其是pH降低和氨累积)和应激反应是鱼类运输中急需解决的关键问题, 而现有的解决措施并不完善。水质和生理指标是相互影响的, 相关研究中应联合分析两者对运输的影响。文章综合分析了运输对鱼类造成的应激反应、水质恶化以及常用的抗应激运输措施, 进而对后续研究进行展望, 旨在为相关的研究提供基础资料。     

基质金属蛋白酶与类风湿性关节炎

类风湿性关节炎是一种慢性炎症性自身免疫性疾病,其特点是软骨和骨骼的不可逆损伤。基质金属蛋白酶参与结缔组织重塑,在关节环境炎症级联中起着重要作用,或可成为类风湿性关节炎治疗的潜在新靶点。本文就其在类风湿性关节炎发生发展和治疗中的研究进展作一综述。     

Matrix metalloproteinases and the ontogeny of scarless repair: the other side of the wound healing balance

Early gestation mammalian fetuses possess the remarkable ability to heal cutaneous wounds in a scarless fashion. Over the past 20 years, scientists have been working to decipher the mechanisms underlying this phenomenon. Much of the research to date has focused on fetal correlates of adult wound healing that promote fibrosis and granulation tissue formation. It is important to remember, however, that wound repair consists of a balance between tissue synthesis, deposition, and degradation. Relatively little attention has been paid to this latter component of the fetal wound healing process.In this study, we examined the ontogeny of ten matrix metalloproteinases (MMPs) and their tissue inhibitors (TIMPs) in nonwounded fetal rat skin and fibroblasts as a function of gestational age. We used a semiquantitative polymerase chain reaction protocol to analyze these important enzymes at time points that represent both the scarless and scar-forming periods of rat gestation. The enzymes evaluated were collagenase-1 (MMP-1), stromelysin-1 (MMP-3), gelatinase A (MMP-2), gelatinase B (MMP-9), membrane-type matrix metalloproteinases (MT-MMPs) 1, 2, and 3, and TIMPs 1, 2, and 3.Results demonstrated marked increases in gene expression for MMP-1, MMP-3 and MMP-9 that correlated with the onset of scar formation in nonwounded fetal skin. Similar results were noted in terms of MMP-9 gene expression in fetal fibroblasts. These results suggest that differences in the expression of these matrix metalloproteinases may have a role in the scarless wound healing phenotype observed early in fetal rat gestation. Furthermore, our data suggest that the differential expression of gelatinase B (MMP-9) may be mediated by the fetal fibroblasts themselves.