Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.4.24.3 (collagenase)
18,340 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Efficient islet isolation depends on the use of collagenase to digest the extracellular matrix within the islet-exocrine interface, the molecular structure of which is poorly understood. Recently it has been reported that transplantable yields of islets can be isolated from the tail segment of the pancreas alone. This study aimed to quantify and compare the amount of collagenase-resistant collagen VI within the islet-exocrine interface of the head, body, and tail of the human pancreas. Human adult pancreata (n = 5) were retrieved from heart-beating donors (age range, 40-62 years; cold ischemia times <10 hours). Tissue blocks from the head, body, and tail region of each pancreas were fixed in formalin and processed for immuno-labelling of collagen VI, which was quantified in the islet-exocrine interface using a Zeiss KS-400 image analysis system. Data were expressed as area of collagen at the interface relative to the islet area. Statistical analysis was done using paired t test. The mean islet areas in the head, body, and tail regions were not significantly different. Collagen VI was uniformly present within the islet-exocrine interface of all regions of the pancreas and was 0.326 +/- 0.064, 0.324 +/- 0.060, and 0.334 +/- 0.052 microm(2)/islet area (P = .441) in the head, body, and tail, respectively. The content of collagen VI within the islet-exocrine interface was uniform throughout all parts of the adult pancreas. Targeting this collagen subtype with novel collagenase blends may result in consistently improved islet yields and enable a wider number of available donor pancreata to be used.
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PMID:Comparison of the collagen VI content within the islet-exocrine interface of the head, body, and tail regions of the human pancreas. 1629 23

Recent studies suggest a neuroprotective function for heme oxygenase 2 (HO2) in acute brain injury and ischemia. HO2, the main enzyme to degrade the pro-oxidant heme, was tested for its neuroprotective ability in postnatal neuronal cell cultures and in a model of collagenase-induced intracerebral hemorrhage. Genetic deletion of HO2 rendered cultured neurons 32% (P < 0.01) more vulnerable to hemin-induced toxicity, increased brain injury volume in mice by 30% (P < 0.05) at day 1 and by 67% (P < 0.05) at day 3, and worsened neurologic functions by 26% (P < 0.05) at day 1 and by 38% (P < 0.05) at day 3 following exposure to free heme liberated from hemorrhage. Together, these findings suggest that HO2 is a crucial neuroprotective enzyme in detoxifying high levels of heme from the brain and that further work is warranted to investigate potential therapeutic strategies that target HO2 in intracerebral hemorrhage.
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PMID:Heme oxygenase 2 is neuroprotective against intracerebral hemorrhage. 1645 95

One of the limitations to hepatocyte transplantation is the restricted availability of donor liver tissue. The aim of this study was to evaluate livers from non-heart-beating donors (NHBDs) as a source of hepatocytes for cell transplantation. A total of 20 livers/segments obtained from NHBD were perfused under good manufacturing practices using a standard collagenase digestion method. The donor liver median warm ischemia time was 15 minutes (range, 11-40 minutes), and cold ischemia time was 13 hours (range, 6-30 hours) prior to cell isolation. The cell viability of the hepatocytes obtained was 52% (1-81%), with a yield of 2.2 x 10(6)(0.2-29.7 x 10(6)) cells per gram of tissue. There was a significant negative correlation between hepatocyte viability and length of both warm ischemia (r = -0.544, P = 0.013) and cold ischemia (r = -0.510, P = 0.022). Preliminary experiments were performed on the viability testing of NHBD livers based on digestion of needle biopsies with collagenase and assessment of the hepatocytes produced. Two of the NHBD cell preparations, which had been cryopreserved, were used as part of a series of cell infusions for hepatocyte transplantation. A 3.5-yr-old girl with Crigler-Najjar syndrome type I received 9.7 x 10(8) NHBD hepatocytes (viability on thawing, 65%), and a 4-month-old boy with inherited clotting factor VII deficiency received 5.0 x 10(8) hepatocytes (viability, 57%). In conclusion, hepatocytes suitable for cell transplantation can be obtained from NHBD livers. Higher viability values may be obtained if both warm and cold ischemia times of donor liver can be reduced prior to processing.
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PMID:Isolation of hepatocytes from livers from non-heart-beating donors for cell transplantation. 1652 14

Exercise can improve recovery following ischemia and intracerebral hemorrhage (ICH) in rodents. We tested whether forced exercise (EX; running wheel) prior to and/or following ICH in rats would reduce lesion volume and improve functional outcome (walking, skilled reaching, spontaneous paw usage) at 7 weeks post-ICH. A striatal hemorrhage was produced by infusing collagenase. First, we compared animals that received EX (2 weeks; 1 h/day) ending two days prior to ICH and/or starting two weeks following ICH. EX did not improve functional recovery or affect lesion size. Doubling the amount of EX given per day (two 1-h sessions) both prior to and following ICH did not alter lesion volume, but worsened recovery. We then determined if EX (1 h/day) prior to and following ICH would affect outcome after a somewhat milder insult. There were no differences between the groups in lesion volume or recovery. Finally, we used a hemoglobin assay at 12 h following ICH to determine if pre-stroke EX (2 weeks; 1 h/day) aggravated bleeding. It did not. These observations suggest that EX does not improve outcome when given prior to and/or when delayed following ICH. Effective rehabilitation for ICH will likely require more complex interventions than forced running.
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PMID:Forced exercise does not improve recovery after hemorrhagic stroke in rats. 1685 89

During isolation, islets are exposed to warm ischemia. In this study, intraductal administration of oxygenated polymerized, stroma-free hemoglobin-pyridoxalated (Poly SFH-P) was performed to improve O2 delivery. Rat pancreata subjected to 30-min warm ischemia were perfused intraductally with collagenase in oxygenated Poly SFH-P/RPMI or RPMI (control). PO2 was increased by Poly SFH-P (381.7 +/- 35.3 mmHg vs. 202.3 +/- 28.2, p = 0.01) and pH maintained within physiological range (7.4-7.2 vs. 7.1-6.6, p = 0.009). Islet viability (77% +/- 4.6 vs. 63% +/- 4.7, p = 0.04) was improved and apoptosis lower with Poly SFH-P (caspase-3: 34,714 +/- 2167 vs. 45,985 +/- 1382, respectively, p = 0.01). Poly SFH-P improved islet responsiveness to glucose as determined by increased intracellular Ca2+ levels and improved insulin secretion (SI 5.4 +/- 0.1 vs. 3.1 +/- 0.2, p = 0.03). Mitochondrial integrity was improved in Poly SFH-P-treated islets, which showed higher percentage change in membrane potential after glucose stimulation (14.7% +/- 1.8 vs. 9.8 +/- 1.4, respectively, p < 0.05). O2 delivery by Poly SFH-P did not increase oxidative stress (GSH 7.1 +/- 2.9 nm/mg protein for Poly SFH-P vs. 6.8 +/- 2.4 control, p = 0.9) or oxidative injury (MDA 1.8 +/- 0.9 nmol/mg protein vs. 6.2 +/- 2.4, p = 0.19). Time to reach normoglycemia in transplanted diabetic nude mice was shorter (1.8 +/- 0.4 vs. 7 +/- 2.5 days, p = 0.02), and glucose tolerance improved in the Poly SFH-P group (AUC 8106 +/- 590 vs. 10,863 +/- 946, p = 0.03). Oxygenated Poly SFH-P improves islet isolation and transplantation outcomes by preserving mitochondrial integrity.
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PMID:Improved outcomes in islet isolation and transplantation by the use of a novel hemoglobin-based O2 carrier. 1706

Despite the numerous advances made in the prevention and treatment of cardiovascular diseases, there is a need for new strategies to repair and/or regenerate the myocardium after ischemia and infarction in order to prevent maladaptive remodeling and cardiac dysfunction. This article compiles and analyzes the available experimental data regarding the potential therapeutic effects of thymosin-beta4 and its derivative N-acetyl-seryl-aspartyl-lysyl-proline (Ac-SDKP) in cardiac healing after myocardial infarction (MI) as well as discussing the possible mechanisms involved. The healing properties of thymosin-beta4 have been described in different types of tissues, such as the skin and cornea, and more recently it has been shown that thymosin-beta4 facilitates cardiac repair after infarction by promoting cell migration and myocyte survival. Additionally, the tetrapeptide Ac-SDKP was reported to reduce left ventricular fibrosis in hypertensive rats, reverse fibrosis and inflammation in rats with MI, and stimulate both in vitro and in vivo angiogenesis. Ac-SDKP also reduced cardiac rupture rate in mice post-MI. Some of the effects of Ac-SDKP, such as the enhancement of angiogenesis and the decrease in inflammation and collagenase activity, are similar to those described for thymosin-beta4. Thus, it is possible that Ac-SDKP could be mediating some of the beneficial effects of its precursor. Although the experimental evidence is very promising, there are no data available from a clinical trial supporting the use of thymosin-beta(4) or Ac-SDKP as means of healing the myocardium after MI in patients.
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PMID:Therapeutic potential of thymosin-beta4 and its derivative N-acetyl-seryl-aspartyl-lysyl-proline (Ac-SDKP) in cardiac healing after infarction. 1708 65

Cardiac myocytes are activated by hormonal and mechanical signals and respond in a variety of ways, from altering contractile function to inducing cardio-protection and growth responses. The use of genetic mouse models allows one to examine the role of cardiac-specific and other genes in cardiac function, hypertrophy, cardio-protection, and diseases such as ischemia and heart failure. However, studies at the cellular level have been hampered by a lack of suitable techniques for isolating and culturing calcium-tolerant, adult mouse cardiac myocytes. We have developed a straightforward, reproducible protocol for isolating and culturing large numbers of adult mouse cardiac myocytes. This protocol is based on the traditional approach of retrograde perfusion of collagenase through the coronary arteries to digest the extracellular matrix of the heart and release rod-shaped myocytes. However, we have made modifications that are essential for isolating calcium-tolerant, rod-shaped adult mouse cardiac myocytes and maintaining them in culture. This protocol yields freshly isolated adult mouse myocytes that are suitable for biochemical assays and for measuring contractile function and calcium transients, and cultured myocytes that are suitable for most biochemical and signaling assays, as well as gene transduction using adenovirus.
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PMID:Isolation and culture of adult mouse cardiac myocytes. 1717 94

Cellular mechanisms occurring in the healing wound have been well described in various animal models. However, the events associated with wound healing seen in ischemic skin have not been as thoroughly defined. In this series of experiments, we created a novel model of excisional skin wounds under gradient ischemia to study the cellular and extracellular events leading to delayed healing. We hypothesized that altered collagen metabolism accounts for delayed wound healing in ischemic skin. Three pairs of 4 mm punch wounds were made 4 days after bipedicle skin flaps were created on the dorsum of rats. Sham-operated control animals had the same punch wounds without flap creation. The kinetics of excisional wound healing were measured by means of computerized planimetry. In addition, wounds were excised with a 6 mm trephine, radiolabelled with ((3)H)-proline and in vitro collagen synthesis determined as collagenase digestible protein along with quantitation of DNA content. Total collagen deposition was determined as 4-hydroxy-L-proline by high-performance liquid chromatography, and wounds were histologically evaluated. Data was analyzed by means of two-way analysis of variance. Although control wounds healed by day 10, flap wounds consistently had greater surface area on days 2, 4, 6, 8, and 12 (p < 0.001). Relative collagen synthesis (% collagen/noncollagen protein), as measured by an in vitro synthesis method, showed no statistically significant differences between flap and controls wounds. However, the total collagen content (deposition) as measured by 4-hydroxy-l-proline was significantly lower in flap wounds compared with controls on days 7 (p < 0.05) and 9 (p < 0.001). In addition, a significant increase occurred in DNA content in the flap wounds on days 7 (p < 0.05) and 9 (p < 0.001) versus control wounds. These data indicate that, in ischemic wounds, significantly less collagen is deposited despite the inherent ability of the tissue to synthesize appropriate levels of collagen. Because the in vitro collagen synthesis technique only assesses the ability of the tissue to synthesize collagen in a well oxygenated environment, one cannot be assured that the tissue expresses this potential in vivo. However, these data are consistent with the hypothesis that the delay in wound closure is due to an alteration in collagen metabolism which results in a net decrease in collagen accumulation. Because of the observed increase in DNA within the ischemic wounds, we suggest that there is prolonged inflammation in these wounds which may enhance collagen degradation through the release of proteases. In addition, there may be an inability of the tissue to maintain appropriate levels of collagen in this inflammatory wound environment.
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PMID:Altered collagen metabolism and delayed healing in a novel model of ischemic wounds. 1717 49

Oxidative stress secondary to ischemia can cause physiopathologic changes that adversely affect wound healing. In this experimental study, we hypothesized that the topical use of esterified glutathione, a well-known antioxidant, can minimize the effects of oxidative stress by an increase in intracellular glutathione and accelerate wound healing by increasing the contraction capacity of fibroblasts and preventing keratinocytes from apoptosis in a rat ischemic wound model. Experimental models were divided into 3 groups as treatment, control, and healthy. Bipedicled flaps were elevated from the dorsum of the rats, and 6-mm punch wounds were created at the end of the first day when the ischemia is most apparent. Wounds were followed histopathologically and immunohistochemically, and matrix metalloproteinase (MMP)-1 and tissue inhibitors of metalloproteinase (TIMP-1) levels were measured by ELISA. Samples were collected at 0, 5, 8, 10, and 12 days. Histopathologic evaluation revealed significant extracellular matrix deposition and reepithelization every fifth day in treatment and healthy groups when compared with control group. Immunohistochemical evaluation revealed increased apoptosis in basal keratinocytes in the control group when compared with the other groups. The evaluation of the samples collected at 5 and 8 days revealed increased MMP-1 levels in treatment and control groups, but the increase in TIMP-1 levels was more significant than MMP-1 levels in treatment group. MMP-1/TIMP-1 ratio was significantly low in the treatment group.Our results showed that topical GSH treatment can reduce oxidative stress, and the reestablishment of the MMP-1/TIMP-1 ratio gives way to adequate and regular extracellular matrix production and reepithelization. It is concluded that esterified GSH, which is experimentally shown to be effective in ischemic wound healing, can be used clinically in ischemic wounds.
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PMID:Effects of topical glutathione treatment in rat ischemic wound model. 1741 90

Angiotensin II exerts its central nervous system effects primarily via its receptors AT1 and AT2, and it participates in the pathogenesis of ischemia via AT1. The selective AT1 receptor blocker (ARB) is used in the hypertension treatment, and it exerts a variety of pleiotropic effects, including antioxidative, antiapoptotic, and anti-inflammatory effects. In this study, we investigated the therapeutic effect of the ARB telmisartan in experimental intracerebral hemorrhage (ICH) in normotensive rats. ICH was induced via the collagenase infusion or autologous blood injection. Either telmisartan at 30 mg/kg/dose or phosphate-buffered saline was orally administered 2 h after ICH induction. We evaluated hemorrhage volume, brain water content, and functional recovery, and we performed the histological analysis for terminal deoxynucleotidyl transferase dUTP nick-end labeling, leukocyte infiltration, and microglia activation. A variety of intracellular signals, in terms of oxidative stress, apoptotic molecules, and inflammatory mediators, were also measured. Telmisartan reduced hemorrhage volume, brain edema, and inflammatory or apoptotic cells in the perihematomal area. Telmisartan was noted to induce the expression of endothelial nitric-oxide synthase and peroxisome proliferator-activated receptor gamma and decrease oxidative stress, apoptotic signal, tumor necrosis factor-alpha, and cyclooxygenase-2 expression. The telmisartan-treated rats exhibited less pronounced neurological deficits and recovered better. Thus, telmisartan seems to offer neural protection, including antiapoptosis, anti-inflammatory, and antioxidant benefits in the intracerebral hemorrhage rat model.
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PMID:Blockade of AT1 receptor reduces apoptosis, inflammation, and oxidative stress in normotensive rats with intracerebral hemorrhage. 1753 8


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