Matrix metalloproteinases in lung diseases

Matrix metalloproteinases (MMPs) are a pivotal family of zinc enzymes responsible for degradation of the extracellular matrix (ECM) components including basement membrane collagen, interstitial collagen, fibronectin, and various proteoglycans, during normal remodeling and repair processes. The potent proteolytic activities of MMPs is mainly regulated by the balance with specific tissue inhibitors of Matrix metalloproteinases (TIMP). Excessive or inappropriate expression of MMP may contribute to the pathogenesis of tissue destructive processes in a wide variety of diseases including lung diseases. Although the precise mechanisms are still unknown, the contribution of individual MMPs are worth investigating in seeking the pathogenesis of various lung diseases such as lung cancer, bronchial asthma, chronic obstructive pulmonary disease, acute lung injury, pulmonary hypertension and interstitial lung diseases. In particular, the close association of each lung disease with the destructive effects of gelatinase A and B (also called MMP-2 and MMP-9) on the basement membrane in early alveolar remodeling, and that of collagenase-1 (MMP-1) on the major interstitial structural protein of ECM have received considerable attention. The interaction of MMPs with chemical mediators and inflammatory cytokines has also been reported in some recent studies. Several promising therapeutic approaches to inhibit MMPs have just started in the field of oncology, while more specific MMP inhibitors may be required for further investigation in other fields of lung diseases. In this review, the main focus is on the recent clinical and experimental findings and the contributions of MMPs and/or TIMPs in the lung diseases.     

In vitro and in vivo inhibition of skin matrix metalloproteinases by Pothomorphe umbellata root extract

Exposure to UV radiation up-regulates the synthesis of matrix metalloproteinases (MMPs), a group of matrix-degrading enzymes. MMPs are regarded as promising therapeutic targets and the development of effective inhibitors is an important research focus. The plant Pothomorphe umbellata has been shown to exert a potent antioxidant activity on the skin and to delay the onset and reduce the incidence of UVB-induced chronic skin damage. The aim of the present study was to determine the effect of P. umbellata ethanolic root extract on MMP-2 and MMP-9. The in vitro inhibition of MMP-2 and MMP-9 was measured by gelatin zymography in the presence of different concentrations of P. umbellata extract, as well as in the presence of its isolated active principle 4-nerolidylcatechol (4-NC). The inhibitory effect of the P. umbellata extract was stronger than that of 4-NC. Gelatin zymography and histological analysis revealed that P. umbellata was able to inhibit constitutive MMP-9 activity in vivo in mice sacrificed 2 h after UVB irradiation. The intensity of the MMP-2 band was unchanged. Our data contribute to the elucidation of the mechanism of prevention of photoaging by P. umbellata and may provide a rational basis for the use of this plant in prophylaxis against and treatment of skin cancer.     

Phosphorus based inhibitors of matrix metalloproteinases

This article reviews the current state of phosphorus-based matrix metalloproteinase (MMP) inhibitors. MMPs are a potentially harmful group of enzymes and their successful inhibition can be expected to alleviate a large diversity of severe pathologies that are listed in the beginning of the review. More than 20 years of worldwide search by the scientific and industrial community for a clinically useful inhibitor have resulted in failure because of toxic side effects or lack of in vivo efficacy of the tested molecules. In the majority of inhibitors reviewed in this article, the phosphorus plays the role of zinc bonding, as most MMP inhibitors are designed to do, since the catalytic zinc ion is crucial for the functioning of these enzymes. The main classes of phosphorus based MMP inhibitors are: bisphosphonates, phosphonamidates, phosphinamidates, phosphinates, phosphonates and carbamoylphosphonates.     

Design and characterization of a metalloproteinase inhibitor-tethered resin for the detection of active MMPs in biological samples

Matrix metalloproteinases (MMPs), zinc-dependent endopeptidases, are implicated in tumor progression. We describe herein the development of a resin-immobilized, broad-spectrum synthetic MMP inhibitor for selective binding of the active forms of MMPs from different experimental samples. We confirmed the activity-based binding of MMPs to the inhibitor-tethered resin with purified human recombinant MMP-2, -9, and -14, samples of cultured cells, and tissue extracts. Our results show that only the free active MMPs, and not the zymogens or MMP/TIMP (enzyme-protein inhibitor) complexes, bound specifically to the resin. In our comparison of benign and carcinoma tissue extracts, we detected active MMP-2 and MMP-14 forms only in the cancerous tissue samples, indicating that a pool of the tumor MMPs is free of endogenous inhibitors (TIMPs), and is thus likely to contribute to proteolytic events that precipitate tumor metastasis.     

Expression Optimization and Characterization of the Catalytic Domain of Human MT3-MMP

Introduction Matrixmetalloproteinases(MMPs)areafamilyof calciumandzincrequiringendoproteinasesthattogether candegradeallthemaincomponentsoftheextra cellu larmatrixandbasementmembranes[1].MMPsarein volvedinawiderangeofproteolyticevents,innormal andpatholog…     

Cordycepin inhibits UVB-induced matrix metalloproteinase expression by suppressing the NF-��B pathway in human dermal fibroblasts

Cordycepin (3''-deoxyadenosine) has been shown to exhibit many pharmacological activities, including anti-cancer, anti-inflammatory, and anti-infection activities. However, the anti-skin photoaging effects of cordycepin have not yet been reported. In the present study, we investigated the inhibitory effects of cordycepin on matrix metalloproteinase-1 (MMP-1) and -3 expressions of the human dermal fibroblast cells. Western blot analysis and real-time PCR revealed cordycepin inhibited UVB-induced MMP-1 and -3 expressions in a dose-dependent manner. UVB strongly activated NF-κB activity, which was determined by IκBα degradation, nuclear localization of p50 and p65 subunit, and NF-κB binding activity. However, UVB-induced NF-κB activation and MMP expression were completely blocked by cordycepin pretreatment. These findings suggest that cordycepin could prevent UVB-induced MMPs expressions through inhibition of NF-κB activation. In conclusion, cordycepin might be used as a potential agent for the prevention and treatment of skin photoaging.     

Synthesis of an inhibitor-tethered resin for detection of active matrix metalloproteinases involved in disease

Matrix metalloproteinases (MMPs), of which 26 members are known in humans, are implicated in a number of diseases. Their activity is strictly controlled, but when the biological control over the activity is lost, disease processes set in. In an attempt to delineate what MMP activity has gone awry in what diseases, including metastatic cancers that are of special interest to our laboratories, we conceived and synthesized two chromatographic resins incorporated with a multifunctional broad-spectrum inhibitor for MMPs. The broad-spectrum inhibitor contains three sterogentic centers and was synthesized in 13 steps. Two structural variants of the inhibitors were linked to the polymer support via disulfide moieties. These resins are intended for use in cellular systems to selectively fish out from a complex mixture of all cellular proteins the active MMP forms important for the specific disease for identification.     

Synthesis and ABTS Radical,MMP‐1 Inhibitory Activity of CAPE Analogues

In the photoaging process of skin, the ultraviolet (UV)‐induced reactive oxygen species (ROS) is the key regulator of matrix metalloproteinase (MMPs) expression. In this study, a series of Caffeic acid phenethyl ester (CAPE) analogues were synthesized by conjugating the group VI elements (selenium, sulfur, oxygen)‐containing aliphatic alcohols to polyphenolic acids. Their biological activities were evaluated by in vitro testing of their radical scavenging activity the of ABTS [2,2′‐azinobis‐(3‐ethyl‐benzothiazoline‐6‐sulfonic acid)] radical and inhibitory effect against the matrix metalloproteinase‐1 (MMP‐1) activity of collagen degradation and cytotoxicity of a human dermal fibroblast skin cell. Our results suggest these compounds displayed moderate anti‐free radical, potent MMP‐1 inhibitory, and low cytotoxic activities.     

Inhibitory Effects of Polygoni Multiflori Caulis Extracts on Matrix Metalloproteinase Activities

Matrix metalloproteinases(MMPs) play an essential role in development and tissue remodeling of living organisms.However,the overexpression of MMPs has lead to a series of diseases,such as cancer,arthritis,and atherosclerosis;and inhibition of MMPs may have therapeutic benefits.The discovery of MMP inhibitors from herbal has become a prospective event.We showed that the extract of Polygoni multiflori caulis from ethy1 acetate or water(ethy1 acetate extract and water extract) can inhibit the activities of MMPs 9,14,and 16 in a dose-dependent manner and n-buty1 alcohol extract of it can also inhibit these MMPs.Furthermore,we found that n-buty1 alcohol extract and water extract of it influence the cell viability.These discoveries may contribute to the development of MMP inhibitors for the therapy of a variety of pathological conditions.     

来源于天然产物的基质金属蛋白酶(MMPs)抑制剂

基质金属蛋白酶（MMPs）参与一系列重大疾病的病理过程,基质金属蛋白酶抑制剂具有广阔的药用前景。本文概述了基质金属蛋白酶抑制剂的研究历史和最新的研究理念。重点回顾总结了天然产物中基质金属蛋白酶的活性抑制成分和对基质金属蛋白酶转录表达抑制的天然产物成分以及这些化合物的抗癌效果。     

Activity of anchored human matrix metalloproteinase-1 catalytic domain on Au (111) surfaces monitored by ESI-MS

Matrix metalloproteinases (MMPs) are a family of Zn-dependent endo-peptidases known for their ability to cleave several components of the extracellular matrix, but which can also cleave many non-matrix proteins. There are many evidences that MMPs are involved in physiological and pathological processes, and a huge effort has been put in the development of possible inhibitors that could reduce the activity of MMPs, as it is clear that the ability to monitor and control such activity plays a pivotal role in the search for potential drugs aimed at finding a cure for several diseases such as pulmonary emphysema, rheumatoid arthritis, fibrotic disorders and cancer.A powerful method currently available to study enzyme-inhibitor interactions is based on the use of the surface plasmon resonance (SPR) technique. When MMP interactions are studied, a procedure by which inhibitors are normally anchored on sensor chips and SPR technique is used in order to study their interaction with MMPs molecules is usually followed. This is because it is currently believed that MMPs cannot be anchored on the sensor-chip surface without losing their activity. However, this approach gives rise to problems, as the anchoring of low-molecular-weight inhibitors on gold surfaces easily affects their ability to interact with MMPs. For this reason, the anchoring of MMPs is highly desirable.A new experimental protocol that couples the Fourier transform-SPR (FT-SPR) technique with electrospray ionization-mass spectroscopy (ESI-MS) is described here for the evaluation of the activity of MMP-1 catalytic domain (cdMMP-1) anchored on gold surfaces. The cdMMP-1 surface coverage is calculated by using FT-SPR and the enzyme activity is estimated by ESI-MS. The proposed method is label-free.     

Activity-based enrichment of matrix metalloproteinases using reversible inhibitors as affinity ligands

Matrix metalloproteinases (MMPs) are zinc dependent metalloproteases characterized by the ability to cleave extracellular matrix and many other extracellular proteins. MMP activity is tightly regulated but disturbances in this regulation can contribute to various disease processes characterized by a progressive destruction of the extracellular matrix. The ability to profile classes of enzymes based on functionally related activities would greatly facilitate research about the involvement of MMPs in physiological and/or pathological states. Here we describe the characterization of an affinity sorbent using an immobilized reversible inhibitor as a stationary phase for the activity-based enrichment of MMPs from biological samples. With a ligand density of 9.8 mM and binding constant of 58 micromol/l towards MMP-12, the capturing power of the affinity sorbent was strong enough to extract MMP-12 spiked into serum with high selectivity from relatively large sample volumes. Experiments with endogenous inhibitors revealed that MMP-12 extraction is strictly activity-dependent, offering powerful means to monitor MMP activities in relation to physiological and/or pathological events by using affinity extraction as a first step in an MMP profiling method.     

Expression of MMP2 and MMP9 (Gelatinases A and B) in Human Colon Cancer Cells

Matrix metalloproteinases (MMPs) are a family of zinc-dependent neutral endopeptidases, collectively capable of degrading essentially all matrix components. Elevated levels of distinct MMPs are detected in tumor tissue or serum of patients with advanced cancer, and they are the major prognostic indicators in cancer. Inhibition of MMPs has been explored as a therapeutic goal for almost two decades. Nitric oxide (NO), a free radical plays an important role in signaling pathways in regulation of MMP expression. In the present study, we demonstrated the role of exogenous NO levels in the regulation of MMP2 and MMP9 (gelatinases A and B) in colon cancer cell line WiDr and its inhibition with emodin (a naturally occurring anthraquinone).     

A comparative docking study and the design of potentially selective MMP inhibitors

As part of a program aimed at the design and synthesis of constrained MMP inhibitors, a survey of the reported X-ray and NMR structures of MMP/inhibitor complexes was performed, revealing mutations of key amino acids at different subsites between MMPs. A comparative study of fully automated docking programs AutoDock and DOCK in closely approximating the X-ray crystal structures of ten selected MMP inhibitors was performed. AutoDock proved to be highly reliable, efficient and predictive for a set of inhibitors with less than six atom types.     

Engineered Peptide Macrocycles Can Inhibit Matrix Metalloproteinases with High Selectivity

Matrix metalloproteinases (MMPs) are zinc‐dependent endopeptidases at the intersection of health and disease due to their involvement in processes such as tissue repair and immunity as well as cancer and inflammation. Because of the high structural conservation in the catalytic domains and shallow substrate binding sites, selective, small‐molecule inhibitors of MMPs have remained elusive. In a tour‐de‐force peptide engineering approach combining phage‐display selections, rational design of enhanced zinc chelation, and d ‐amino acid screening, we succeeded in developing a first synthetic MMP‐2 inhibitor that combines high potency (K_i=1.9±0.5 nm ), high target selectivity, and proteolytic stability, and thus fulfills all the required qualities for in cell culture and in vivo application. Our work suggests that selective MMP inhibition is achievable with peptide macrocycles and paves the way for developing specific inhibitors for application as chemical probes and potentially therapeutics.