Inhibition of Matrix Metalloproteinase-9 Activity by Trandolapril after Middle Cerebral Artery Occlusion in Rats

Matrix metalloproteinases and ADAMs in stroke

Stroke is a leading cause of death and disability worldwide. However, after years of in-depth research, the pathophysiology of stroke is still not fully understood. Increasing evidence shows that matrix metalloproteinases (MMPs) and "a disintegrin and metalloproteinase" (ADAMs) participate in the neuro-inflammatory cascade that is triggered during stroke but also in recovery phases of the disease. This review covers the involvement of these proteins in brain injury following cerebral ischemia which has been widely studied in recent years, with efforts to modulate this group of proteins in neuroprotective therapies, together with their implication in neurorepair mechanisms. Moreover, the review also discusses the role of these proteins in specific forms of neurovascular disease, such as small vessel diseases and intracerebral hemorrhage. Finally, the potential use of MMPs and ADAMs as guiding biomarkers of brain injury and repair for decision-making in cases of stroke is also discussed.

Molecular insight into the Grandivitin- matrix metalloproteinase 9 interactions

Grandivitin (GRA), a natural coumarin, can inhibit Matrix metalloproteinase 9 (MMP9). Binding characteristics are therefore of interest for pharmacodynamics of GRA and coumarin derivatives. A combination of spectroscopic methods and molecular modeling techniques was used to characterize interaction of GRA with MMP9. Fluorescence spectroscopy showed that GRA could quench the MMP9 fluorescence spectra. Changes in the UV-Vis and FT-IR spectra were observed upon ligand binding along with a significant degree of tryptophan fluorescence quenching on complex formation. Fluorescence studies showed that GRA has an ability to quench the intrinsic fluorescence of MMP9. Molecular modeling analysis showed that GRA to be bound in the large hydrophobic cavity of MMP9. Further investigation of the binding site of GRA within the MMP9 molecule suggested that hydrophobic contacts, hydrogen bond formation and electrostatic interactions account for the binding of GRA. According molecular dynamics (MD) simulation results the ligand can interact with the protein, with affecting the secondary structure of MMP9 and with a modification of its tertiary structure. The biological significance of this work is evident because MMP9 serves as a potential target protein for anticancer agents. The binding study of GRA with MMP9 is of great importance in pharmacy, pharmacology and biochemistry. This work can provide some key data to clinical research and supply the theoretical basis for the new drug candidate designing.

The effect of captopril on the expression of MMP-9 and the prognosis of neurological function in herpes simplex encephalitis mice

BACKGROUND AND PURPOSE

Early increased matrix metalloproteinase-9 (MMP-9) expression is involved in the evolution of herpes simplex encephalitis (HSE) by facilitating the development of cerebrovascular complications. However, the molecular mechanism underlying the detrimental effects of MMP-9 in HSE has not been elucidated. Recent research finds angiotensin II plays an important role in regulation of MMP-9 activity. The aim of this work was to identify the influence of angiotensin-converting enzyme inhibitor (ACEI) captopril on MMP-9 activation after herpes simplex virus 1 (HSV-1) infection.

METHODS

Animal models of HSE were established by intracerebral inoculation of HSV-1 into mice. Brain tissue ROS levels were measured by staining with dihydroethidium. MMP-9 protein expression was detected by immunofluorescence and brain water content was measured with dry-wet weight method. Neurological function score was quantified 5 d after HSV-1 infection. Microglial cells were treated with various concentrations of captopril. MMP-9 gelatinolytic activity in the supematant of the cell cultures was assessed by zymography. RT-PCR was used to detect the mRNA expressions of p47phox and MMP-9.

RESULTS

Immunofluorescence showed that expression of MMP-9 in brain tissue was mainly presented in OX-42 positive microglia. Quantification of gelatinolytic activity by densitometry showed that expression of MMP-9 in microglia was significantly increased after HSV-1 infection and inhibited by captopril treatment. NADPH oxidase subunit p47phox and MMP-9 mRNA expression were significantly increased 6 h after HSV-1 infection, and were seen reduced after captopril treatment in dose dependence. Captopril also downregulated ROS and MMP-9 protein expression following encephalitis in vivo, and attenuated brain edema, and improved neurological function.

DISCUSSION

This compelling evidence suggests that MMP-9 is a key pathogenic factor within HSE. ACEI captopril could reduce the expression of MMP-9 mediated by ROS, then relieve cerebral edema and improve neurological function, which may lay a foundation for further basic research and clinical application.

Functional up-regulation of endopeptidase neurolysin during post-acute and early recovery phases of experimental stroke in mouse brain

In this study, we provide evidence for the first time that membrane-bound endopeptidase neurolysin is up-regulated in different parts of mouse brain affected by focal ischemia-reperfusion in a middle cerebral artery occlusion model of stroke. Radioligand binding, enzymatic and immunoblotting experiments in membrane preparations of frontoparietal cortex, striatum, and hippocampus isolated from the ischemic hemisphere of mouse brain 24 h after reperfusion revealed statistically significant increase (≥ twofold) in quantity and activity of neurolysin compared with sham-operated controls. Cerebellar membranes isolated from the ischemic hemisphere served as negative control supporting the observations that up-regulation of neurolysin occurs in post-ischemic brain regions. This study also documents sustained functional up-regulation of neurolysin in frontoparietal cortical membranes for at least 7 days after stroke, which appears not to be transcriptionally or translationally regulated, but rather depends on translocation of cytosolic neurolysin to the membranes and mitochondria. Considering diversity of endogenous neurolysin substrates (neurotensin, bradykinin, angiotensins I/II, substance P, hemopressin, dynorphin A(1-8), metorphamide, somatostatin) and the well-documented role of these peptidergic systems in pathogenesis of stroke, resistance to ischemic injury and/or post-stroke brain recovery, our findings suggest that neurolysin may play a role in processes modulating the brain's response to stroke and its recovery after stroke.

Imidapril inhibits cerebral aneurysm formation in an angiotensin-converting enzyme-independent and matrix metalloproteinase-9-dependent manner

BACKGROUND

Cerebral aneurysms (CAs) have a high prevalence in the general population and cause lethal subarachnoid hemorrhage. We recently demonstrated that chronic inflammation is an underlying pathogenesis of CA. However, we identified the negative involvement of angiotensin receptor signaling in the pathogenesis of CA.

OBJECTIVE

To elucidate the involvement of the renin-angiotensin system (RAS) by assessing the expression and activity of angiotensin-converting enzyme (ACE), a key enzyme of RAS, during CA formation and evaluating the effect of imidapril, an ACE inhibitor and a potent inhibitor of matrix metalloproteinase-9 (MMP-9), on CA formation.

METHODS

Surgically induced CA models of rats were used. Imidapril was given intraperitoneally to rats, and aneurysm size and medial thickness of CAs were examined 1 month after induction. Then, ACE and MMP-9 expression was assessed by immunostaining and Western blot analysis. The MMP-9 activity was evaluated by gelatin zymography, and ACE expression in human CA walls was assessed by immunostaining.

RESULTS

Imidapril significantly suppressed the size and medial thinning of induced CAs. The expression and activity of ACE were not induced in CA walls. Furthermore, imidapril treatment did not influence ACE expression and activity, suggesting that the inhibitory effect of imidapril was independent of an inhibition of the RAS. Imidapril inhibited MMP-9 activity upregulated in CA walls. In an in vitro study, imidapril suppressed MMP-9 activity in a dose-dependent manner. In human CA walls, as in the rat model, ACE expression was not upregulated.

CONCLUSION

Angiotensin-converting enzyme is not involved in the pathogenesis of CA formation. Imidapril suppresses CA formation in an ACE-independent and MMP-9-dependent manner.

Ramiprilate inhibits functional matrix metalloproteinase activity in Crohn's disease fistulas

Increased expression of matrix metalloproteinase (MMP)-2, -3 and -9 has been demonstrated in Crohn's disease fistulas, but it is unknown whether these enzymes are biologically active and represent a therapeutic target. Therefore, we investigated the proteolytic activity of MMPs in fistula tissue and examined the effect of inhibitors, including clinically available drugs that beside their main action also suppress MMPs. Fistula specimens were obtained by surgical excision from 22 patients with Crohn's disease and from 10 patients with fistulas resulting from other causes. Colonic endoscopic biopsies from six controls were also included. Total functional MMP activity was measured by a high-pressure liquid chromatography (HPLC)-based, fluorogenic MMP-substrate cleavage assay, and the specific activity of MMP-2, -3 and -9 by the MMP Biotrak Activity Assay. The MMP inhibitors comprised ethylene-diamine-tetraacetic acid (EDTA), the synthetic broad-spectrum inhibitor, GM6001, the angiotensin-converting enzyme (ACE) inhibitor, ramiprilate, and the tetracycline, doxycycline. In Crohn's disease fistulas, about 50% of the total protease activity was attributable to MMP activity. The average total MMP activity was significantly higher (about 3.5-times) in Crohn's fistulas (471 FU/μg protein, range 49-2661) compared with non-Crohn's fistulas [134 FU/μg protein, range 0-495, (p < 0.05)] and normal colon [153 FU/μg protein, range 77-243, (p < 0.01)]. MMP-3 activity was increased in Crohn's fistulas (1.4 ng/ml, range 0-9.83) compared with non-Crohn's fistulas, [0.32 ng/ml, range 0-2.66, (p < 0.02)]. The same applied to MMP-9 activity [0.64 ng/ml, range 0-5.66 and 0.17 ng/ml, range 0-1.1, respectively (p < 0.04)]. Ramiprilate significantly decreased the average total MMP activity level by 42% and suppressed the specific MMP-3 activity by 72%, which is comparable to the effect of GM6001 (87%). Moreover, MMP-9 activity was completely blunted by ramiprilate. Doxycycline had no effect on MMP activity. Increased functional MMP activity, notably MMP-3 and -9, is present in Crohn's fistulas and may be inhibited by ramiprilate, a widely available ACE inhibitor.

Metalloproteinase and stroke infarct size: role for anti-inflammatory treatment?

Deregulation of matrix metalloproteinases (MMPs), the largest class of human proteases, has been implicated in brain damage in both animal and human studies. Some MMPs are elevated after stroke (both in plasma and in brain tissue), and their expression is enhanced by t-PA during thrombolysis related to hemorrhagic transformation events. Although the exact cellular source of MMPs remains unknown, brain endothelium, astrocytes, neurons, and inflammatory-activated cells, such as neutrophils, may release MMP-2, MMP-3, MMP-8, MMP-9, MMP-10, and/or MMP-13. Neurovascular perturbations occurring after stroke lead to blood-brain barrier leakage, edema, hemorrhage, leukocyte infiltration, and progressive inflammatory reactions to brain injury over hours or even days after the initial stroke. Synthesized MMP inhibitors and several compounds used for stroke secondary prevention, such as anti-inflammatory drugs, might decrease MMPs and improve the acute treatment of human brain ischemia without compromising the beneficial effects of matrix plasticity during stroke recovery.

Mmp-9, a potential target for cerebral ischemic treatment

Matrix metalloproteinase-9 (MMP-9) which is a member of matrix metalloproteinases family that normally remodel the extracellular matrix, has been shown to play an important role in both animal models of cerebral ischemia and human stroke. The expression of MMP-9 is elevated after cerebral ischemia which is involved in accelerating matrix degradation, disrupting the blood-brain barrier, increasing the infarct size and relating to hemorrhagic transformation. Recently, many drugs, such as tetracycline derivatives, cyclooxygenase inhibitors, ACEI inhibitors and AT1 receptor blockers, etc., have been found to attenuate the elevated expression levels of MMP-9 after ischemia and to reduce the damage of cerebral ischemic. This article reviews the physiological features of MMP-9 and its important role in the genesis, propagation, and therapeutics of cerebral ischemic diseases.

Involvement of angiotensin II-dependent vascular endothelial growth factor gene expression via NADPH oxidase in the retina in a type 2 diabetic rat model

PURPOSE

To clarify the involvement of angiotensin II-dependent vascular endothelial growth factor (VEGF) via NADPH oxidase in the retina in spontaneously diabetic Torii (SDT) rats, a type 2 diabetic rat model. In SDT rats, the plasma glucose level and angiotensin-converting enzyme (ACE) levels were measured, and effects of angiotensin II receptor blocker (ARB) and angiotensin II were also studied.

MATERIALS AND METHODS

We evaluated the age-dependent changes in the peripheral and ocular angiotensin II-forming systems in SDT rats at 15 (n = 8), 20 (n = 8), 30 (n = 7), and 50 weeks of age (n = 8). We also evaluated the effect of an ARB (2.5 mg/kg/day candesartan) or angiotensin II (500 ng/kg/min) on retinal gene expressions of VEGF and p22phox, a subunit of NADPH oxidase.

RESULTS

The plasma glucose level was significantly increased from 20 weeks of age. No significant changes in ACE activities in the plasma, aorta, and eye were observed until 30 weeks of age. At 50 weeks, ACE activity in the eyes was significantly increased, whereas ACE activities in the plasma and aorta were not. At 50 weeks, significant increases in VEGF and p22phox, an NADPH oxidase subunit, were significantly reduced by candesartan. Angiotensin II infusion resulted in significant increases in VEGF and p22phox levels.

CONCLUSIONS

Angiotensin II is involved in the gene expression of VEGF via NADPH oxidase in the retina of SDT rats.