Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.24.3 (collagenase)
 18,340 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The clinical features of 426 pituitary adenomas were retrospectively analyzed, focusing on the factors that affect the development of pituitary apoplexy. Immunohistochemical analysis was used to define the different hormone types of the tumors and the expression of various immunologic targets, including the pituitary tumor transforming gene, basic fibroblast growth factor-2, matrix metalloproteinase-9, tissue inhibitor of metalloproteinase-1, and proliferating cell nuclear antigen. Of the 426 patients, 83 presented with pituitary apoplexy (19.48%). Among them, 43 patients (43/83, 51.82%) developed apoplexy in the absence of any obvious precipitating factor. Clinical manifestations included headaches (80/83, 96.38%), vision loss (69/83, 83.13%), pituitary function change (51/83, 61.45%), visual field defects (41/83, 49.39%), and nausea and vomiting (34/83, 40.96%). Male patients and patients with functional adenoma had a higher probability of developing apoplexy. Complicated immunological expression patterns were found in adenomas associated with pituitary apoplexy, with adenomas of different hormone types identified.
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PMID:Clinical features and immunohistochemical changes of pituitary apoplexy. 1904 83

Intracranial aneurysm (IA) rupture is one of the leading causes of stroke in the United States and remains a major health concern today. Most aneurysms are asymptomatic with a minor percentage of rupture annually. Regardless, IA rupture has a devastatingly high mortality rate and does not have specific drugs that stabilize or prevent aneurysm rupture, though other preventive therapeutic options such as clipping and coiling of incidental aneurysms are available to clinicians. The lack of specific drugs to limit aneurysm growth and rupture is, in part, attributed to the limited knowledge on the biology of IA growth and rupture. Though inflammatory macrophages and lymphocytes infiltrate the aneurysm wall, a link between their presence and aneurysm growth with subsequent rupture is not completely understood. Given our published results that demonstrate that the pro-inflammatory cytokine, tumor necrosis factor-alpha (TNF-alpha), is highly expressed in human ruptured aneurysms, we hypothesize that pro-inflammatory cell types are the prime source of TNF-alpha that initiate damage to endothelium, smooth muscle cells (SMC) and internal elastic lamina (IEL). To gain insights into TNF-alpha expression in the aneurysm wall, we have examined the potential regulators of TNF-alpha and report that higher TNF-alpha expression correlates with increased expression of intracellular calcium release channels that regulate intracellular calcium (Ca2+), and Toll like receptors (TLR) that mediate innate immunity. Moreover, the reduction of tissue inhibitor of metalloproteinase-1 (TIMP-1) expression provides insights on why higher matrix metalloproteinase (MMP) activity is noted in ruptured IA. Because TNF-alpha is known to amplify several signaling pathways leading to inflammation, apoptosis and tissue degradation, we will review the potential role of TNF-alpha in IA formation, growth and rupture. Neutralizing TNF-alpha action in the aneurysm wall may have a beneficial effect in preventing aneurysm growth by reducing inflammation and arterial remodeling.
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PMID:TNF-alpha-mediated inflammation in cerebral aneurysms: a potential link to growth and rupture. 1906 97

Matrix Metalloproteinases (MMPs) play an important role in brain injury after ischemic stroke. In the present study, we aimed to assess the global expression of MMP-Family proteins in the human brain after stroke by using a combination of Searchlight Protein Array and Laser Microdissection to determine their cellular origin. This study demonstrated that MMP-1, MMP-2, MMP-3, MMP-8, MMP-9, MMP-10, MMP-13, and TIMP-1 were upregulated in the infarcted tissue compared to healthy control areas. Using laser microdissection we obtained specific neuronal and vascular populations from both infarcted and control areas. From these fractions, we showed that MMP-9 and TIMP-2 were highly produced in brain microvessels while MMP-10 was notably increased in neurons of the ischemic brain but not in healthy areas. These findings demonstrate a selective cell-dependent MMP secretion, opening the possibility of selectively targeting specific MMPs for neuroprotection or vasculoprotection following stroke.
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PMID:Vascular MMP-9/TIMP-2 and neuronal MMP-10 up-regulation in human brain after stroke: a combined laser microdissection and protein array study. 1931 17

Warfarin-associated intracerebral hemorrhage (W-ICH) is a severe type of stroke. There is no consensus on the optimal treatment for W-ICH. Using a mouse model, we tested whether the rapid reversal of anticoagulation using human prothrombin complex concentrate (PCC) can reduce hemorrhagic blood volume. Male CD-1 mice were treated with warfarin (2 mg/kg over 24 h), resulting in a mean (+/-s.d.) International Normalized Ratio of 3.5+/-0.9. First, we showed that an intravenous administration of human PCC rapidly reversed anticoagulation in mice. Second, a stereotactic injection of collagenase was administered to induce hemorrhage in the right striatum. Forty-five minutes later, the animals were randomly treated with PCC (100 U/kg) or saline i.v. (n=12 per group). Twenty-four hours after hemorrhage induction, hemorrhagic blood volume was quantified using a photometric hemoglobin assay. The mean hemorrhagic blood volume was reduced in PCC-treated animals (6.5+/-3.1 microL) compared with saline controls (15.3+/-11.2 microL, P=0.015). In the saline group, 45% of the mice developed large hematomas (i.e., >15 microL). In contrast, such extensive lesions were never found in the PCC group. We provide experimental data suggesting PCC to be an effective acute treatment for W-ICH in terms of reducing hemorrhagic blood volume. Future studies are needed to assess the therapeutic potential emerging from our finding for human W-ICH.
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PMID:Rapid reversal of anticoagulation reduces hemorrhage volume in a mouse model of warfarin-associated intracerebral hemorrhage. 1931 47

Recent studies have reported that glial cell line-derived growth factor (GDNF) has neurotrophic effects on the central nervous system, and the neural stem cells (NSCs) engrafted in animal models of stroke survive and ameliorate the neurological deficits. In this study, a stable human NSC line overexpressing GDNF (F3.GDNF) was transplanted next to the intracerebral hemorrhage (ICH) lesion site and a possible therapeutic effect was investigated. F3.GDNF human NSC line was transplanted into the cortex overlying the striatal ICH lesion. ICH was induced in adult mice by the unilateral injection of bacterial collagenase into the striatum. The animals were evaluated for 8 weeks with rotarod and limb placement tests. Transplanted NSCs were detected by beta-gal immunostaining with double labeling of neurofilament, microtubule associated protein-2, glial fibrillary acidic protein or human nuclear matrix antigen (HuNuMA). F3.GDNF human NSCs produced a four times higher amount of GDNF over parental F3 cells in vitro, induced behavioral improvement in ICH mice after brain transplantation and two- to threefold increase in cell survival of transplanted NSCs at 2 and 8 weeks post-transplantation. In F3.GDNF-grafted ICH brain, a significant increase in the antiapoptotic protein and cell survival signal molecules, and a marked reduction in proapoptotic proteins were found as compared with control group. Brain transplantation of human NSCs overexpressing GDNF in ICH animals provided functional recovery in ICH animals, and survival and differentiation of grafted human NSCs. These results indicate that the F3.GDNF human NSCs should be of a great value as a cellular source for the cellular therapy in animal models of human neurological disorders including ICH.
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PMID:Human neural stem cells overexpressing glial cell line-derived neurotrophic factor in experimental cerebral hemorrhage. 1955 35

Intracerebral hemorrhage (ICH) is a devastating stroke with no clinically proven treatment. Deferoxamine (DFX), an iron chelator, is a promising therapy that lessens edema, mitigates peri-hematoma cell death, and improves behavioral recovery after whole-blood-induced ICH in rodents. In this model, blood is directly injected into the brain, usually into the striatum. This mimics many but not all clinical features of ICH (e.g., there is no spontaneous bleed). Thus, we tested whether DFX improves outcome after collagenase-induced striatal ICH in rats. In the first experiment, 3- and 7-day DFX regimens (100 mg/kg twice per day starting 6 h after ICH), similar to those shown effective in the whole-blood model, were compared to saline treatment. Functional recovery was evaluated from 3 to 28 days with several behavioral tests. Except for one instance, DFX failed to lessen ICH-induced behavioral impairments and it did not lessen brain injury, which averaged 43.5 mm(3) at a 28-day survival. In the second experiment, 3 days of DFX treatment were given starting 0 or 6 h after collagenase infusion. Striatal edema occurred, but it was not affected by either DFX treatment (vs. saline treatment). Therefore, in contrast to studies using the whole-blood model, DFX treatment did not improve outcome in the collagenase model. Our findings, when compared to others, suggest that there are critical differences between these ICH models. Perhaps, the current clinical work with DFX will help identify the more clinically predictive model for future neuroprotection studies.
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PMID:Failure of deferoxamine, an iron chelator, to improve outcome after collagenase-induced intracerebral hemorrhage in rats. 1987 60

Stimulated vagus nerve excretes acetylcholine into the peripheral immune organs such as the spleen, reducing innate inflammation. Here, we investigated whether activation of this "cholinergic anti-inflammatory pathway" can be used to reduce cerebral inflammation in a model of hemorrhagic stroke. Experimental intracerebral hemorrhage (ICH) was induced by stereotaxic collagenase injection in rats. Muscarine, an activator of the vagus nerve, or phosphate-buffered saline (control) was injected into the lateral ventricle after induction of ICH. Intraventricular muscarine injection increased heart rate variability in the ICH model, suggesting increased vagus nerve output. Muscarine-injected ICH rats showed improved neurologic outcomes, reduced brain water content, and decreased levels of inflammatory mediators in both brain and spleen. Central muscarine injection was ineffective at reducing cerebral edema without spleen, suggesting that the effect of muscarine is mediated through the vagus nerve-spleen pathway rather than through a direct interaction with the brain. Our results suggest that the brain possesses a cholinergic anti-inflammatory pathway that counteracts the inflammatory responses after ICH, thereby limiting damage to the brain itself.
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PMID:Cholinergic anti-inflammatory pathway in intracerebral hemorrhage. 1990 Apr 19

Rehabilitation after a stroke is very important because it has beneficial effects on brain function, including the promotion of plasticity. However, an optimal time window for rehabilitation interventions after hemorrhagic stroke has not been clearly defined. The aim of this study was to determine whether early exercise training initiated 24h after an intracerebral hemorrhage (ICH) might enhance neurologic recovery more than exercise initiated 1 week after ICH without hematoma expansion and edema volume increase. We subjected adult male Sprague-Dawley rats to experimental ICH by the intrastriatal administration of bacterial collagenase. The rats were randomly divided into the following 2 groups: early training group (treadmill exercise started 24h post-ICH; n=18) and late training group (treadmill exercise started 1-week post-ICH; n=18). Two weeks after surgery we performed neurologic tests (rota-rod, modified limb-placing, and adhesive-dot removal tests), and measured hematoma volumes and brain water content. In the late training group, compared with the pre-ICH performance on the rota-rod test (98.3+/-69.4s), the animals had significantly worse performance after the post-ICH rehabilitation (40.5+/-52.6s; p<0.01, paired t-test). In the early training group however, the motor performance after the post-ICH rehabilitation (56.4+/-73.5s) was not significantly different from the baseline pre-ICH performance (79.8+/-33.9s; p=0.24). There were no significant differences between the two groups with respect to the other neurologic tests. Early exercise did not increase hematoma size or brain water content. Early treadmill training could be performed safely, and enhanced motor recovery in a rat model of ICH. Further studies are required to translate the results into clinical significance.
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PMID:Early treadmill training promotes motor function after hemorrhagic stroke in rats. 2008 Jan 48

Since free radicals play a role in the mechanisms of brain injury after hemorrhagic stroke, the effect of melatonin (a potent antioxidant and free-radical scavenger) on outcomes was investigated after intracerebral hemorrhage (ICH) in rats. ICH was induced by clostridial collagenase infusion into the right caudate putamen, and several time points and doses of melatonin were studied. Brain edema and neurological function at 24 h were unchanged in comparison with vehicle-treated groups, in spite of oxidative stress reductions. Repeated treatment with the lower dose of melatonin (5 mg/kg) given at 1 h and every 24 h thereafter for 3 days after ICH, led to normalization of striatal function and memory ability over the course of 8 weeks, and less brain atrophy 2 weeks later. These results suggest that melatonin is safe for use after ICH, reduces oxidative stress, provides brain protection, and could be used for future investigations of free radical mechanisms after cerebral hemorrhage.
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PMID:Protective effect of melatonin upon neuropathology, striatal function, and memory ability after intracerebral hemorrhage in rats. 2035 Feb

Rehabilitation, consisting of enriched environment and skilled reach training, improves recovery after intracerebral hemorrhage (ICH) in rats. We tested whether rehabilitation influences dendritic morphology (Golgi-Cox staining-experiment 1) or cell proliferation (immunohistochemistry-experiment 2). In the latter experiment, BrdU was given from 14 to 18 days post stroke, and cells were labeled for BrdU along with NeuN, Iba1 or GFAP. One week after a striatal ICH, via collagenase infusion, the rats were given rehabilitation for 2 weeks or control treatment (group housing in standard cages). Behavioral outcome (e.g., skilled reaching, walking) was assessed at multiple times. Rats were euthanized at 5 (experiment 2) or 6 (experiment 1) weeks post-ICH. As expected, rehabilitation significantly improved skilled reaching and walking ability. There was also a concomitant increase in dendritic length in peri-hematoma striatum and ipsilateral cortex as well as in the contralateral striatum. Lesion volume did not differ between groups, nor did cell proliferation. There was no evidence of neurogenesis, but there was increased Iba1 and GFAP labeling in the injured hemisphere. Thus, rehabilitation likely improves outcome after ICH though a plasticity response (e.g., increased dendritic growth) that does not involve neurogenesis.
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PMID:Rehabilitation after intracerebral hemorrhage in rats improves recovery with enhanced dendritic complexity but no effect on cell proliferation. 2041 36


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