Christoph Harms scite author profile

Abstract-Physical activity upregulates endothelial nitric oxide synthase (eNOS), improves endothelium function, and protects from vascular disease. Here, we tested whether voluntary running would enhance neovascularization and long-term recovery following mild brain ischemia. Wild-type mice were exposed to 30 minutes of middle-cerebral artery occlusion (MCAo) and reperfusion. Continuous voluntary running on wheels conferred long-term upregulation of eNOS in the vasculature and of endothelial progenitor cells (EPCs) in the spleen and bone marrow (BM). This was associated with higher numbers of circulating EPCs in the blood and enhanced neovascularization. Moreover, engraftment of TIE2/LacZ-positive BM-derived cells was increased in the ischemic brain. Four weeks after the insult, trained animals showed higher numbers of newly generated cells in vascular sites, increased density of perfused microvessels and sustained augmentation of cerebral blood flow within the ischemic striatum. Moreover, running conferred tissue sparing and improved functional outcome at 4 weeks. The protective effects of running on angiogenesis and outcome were completely abolished when animals were treated with a NOS inhibitor or the antiangiogenic compound endostatin after brain ischemia, and in animals lacking eNOS expression. Voluntary physical activity improves long-term stroke outcome by eNOS-dependent mechanisms related to improved angiogenesis and cerebral blood flow.

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Mild Cerebral Ischemia Induces Loss of Cyclin-Dependent Kinase Inhibitors and Activation of Cell Cycle Machinery before Delayed Neuronal Cell Death

Katchanov

et al. 2001

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After mild ischemic insults, many neurons undergo delayed neuronal death. Aberrant activation of the cell cycle machinery is thought to contribute to apoptosis in various conditions including ischemia. We demonstrate that loss of endogenous cyclin-dependent kinase (Cdk) inhibitor p16INK4a is an early and reliable indicator of delayed neuronal death in striatal neurons after mild cerebral ischemia in vivo. Loss of p27 Kip1 , another Cdk inhibitor, precedes cell death in neocortical neurons subjected to oxygen-glucose deprivation in vitro. The loss of Cdk inhibitors is followed by upregulation of cyclin D1, activation of Cdk2, and subsequent cytoskeletal disintegration. Most neurons undergo cell death before entering S-phase, albeit a small number (ϳ1%) do progress to the S-phase before their death. Treatment with Cdk inhibitors significantly reduces cell death in vitro. These results show that alteration of cell cycle regulatory mechanisms is a prelude to delayed neuronal death in focal cerebral ischemia and that pharmacological interventions aimed at neuroprotection may be usefully directed at cell cycle regulatory mechanisms.

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Protective effects of PJ34, a novel, potent inhibitor of poly(ADP-ribose) polymerase (PARP) in in vitro and in vivo models of stroke

Abdelkarim¹,

Gertz²,

Harms³

et al. 2001

Int J Mol Med

155

165

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Neuroprotective effects of atorvastatin against glutamate‐induced excitotoxicity in primary cortical neurones

Bösel

Gandor

Harms

et al. 2005

Journal of Neurochemistry

186

121

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Statins [3-hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) reductase inhibitors] exert cholesterol-independent pleiotropic effects that include anti-thrombotic, anti-inflammatory, and antioxidative properties. Here, we examined direct protective effects of atorvastatin on neurones in different cell damage models in vitro. Primary cortical neurones were pre-treated with atorvastatin and then exposed to (i) glutamate, (ii) oxygenglucose deprivation or (iii) several apoptosis-inducing compounds. Atorvastatin significantly protected from glutamate-induced excitotoxicity as evidenced by propidium iodide staining, nuclear morphology, release of lactate dehydrogenase, and mitochondrial tetrazolium metabolism, but not from oxygen-glucose deprivation or apoptotic cell death. This antiexcitototoxic effect was evident with 2-4 days pre-treatment but not with daily administration or shorter-term pre-treatment. The protective properties occurred independently of 3-hydroxy-3-methylglutaryl-CoA reductase inhibition because co-treatment with mevalonate or other isoprenoids did not reverse or attenuate neuroprotection. Atorvastatin attenuated the glutamate-induced increase of intracellular calcium, which was associated with a modulation of NMDA receptor function. Taken together, atorvastatin exerts specific anti-excitotoxic effects independent of 3-hydroxy-3-methylglutaryl-CoA reductase inhibition, which has potential therapeutic implications.

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SUMO2/3 Conjugation is an Endogenous Neuroprotective Mechanism

Datwyler

Lättig-Tünnemann

Yang

et al. 2011

J Cereb Blood Flow Metab

110

108

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Small ubiquitin-like modifier (SUMO)2/3 but not SUMO1 conjugation is activated after transient cerebral ischemia. To investigate its function, we blocked neuronal SUMO2/3 translation through lentiviral microRNA delivery in primary cortical neurons. Viability was unaffected by SUMO2/3 silencing unless neurons were stressed by transient oxygen–glucose deprivation (OGD). Both 15 and 45 minutes of OGD were tolerated by control microRNA-expressing neurons but damaged >60% of neurons expressing SUMO2/3 microRNA. Damaging OGD (75 minutes) increased neuronal loss to 54% (control microRNA) and to 99% (SUMO2/3 microRNA). This suggests that activation of SUMO2/3 conjugation is an endogenous neuroprotective stress response.

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Protein kinase CK2 links extracellular growth factor signaling with the control of p27Kip1 stability in the heart

Hauck

Harms

et al. 2008

Nat Med

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p27(Kip1) (p27) blocks cell proliferation through the inhibition of cyclin-dependent kinase-2 (Cdk2). Despite its robust expression in the heart, little is known about both the function and regulation of p27 in this and other nonproliferative tissues, in which the expression of its main target, cyclin E-Cdk2, is known to be very low. Here we show that angiotensin II, a major cardiac growth factor, induces the proteasomal degradation of p27 through protein kinase CK2-alpha'-dependent phosphorylation. Conversely, unphosphorylated p27 potently inhibits CK2-alpha'. Thus, the p27-CK2-alpha' interaction is regulated by hypertrophic signaling events and represents a regulatory feedback loop in differentiated cardiomyocytes analogous to, but distinct from, the feedback loop arising from the interaction of p27 with Cdk2 that controls cell proliferation. Our data show that extracellular growth factor signaling regulates p27 stability in postmitotic cells, and that inactivation of p27 by CK2-alpha' is crucial for agonist- and stress-induced cardiac hypertrophic growth.

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Differential Mechanisms of Neuroprotection by 17 β-Estradiol in Apoptotic versus Necrotic Neurodegeneration

et al. 2001

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The major goal of this study was to compare mechanisms of the neuroprotective potential of 17 ␤-estradiol in two models for oxidative stress-independent apoptotic neuronal cell death with that in necrotic neuronal cell death in primary neuronal cultures derived from rat hippocampus, septum, or cortex. Neuronal apoptosis was induced either by staurosporine or ethylcholine aziridinium (AF64A), as models for necrotic cell death glutamate exposure or oxygen-glucose deprivation (OGD) were applied. Long-term (20 hr) pretreatment (0.1 M 17 ␤-estradiol) was neuroprotective in apoptotic neuronal cell death induced by AF64A (40 M) only in hippocampal and septal neuronal cultures and not in cortical cultures. The neuroprotective effect was blocked by the estrogen antagonists ICI 182,780 and tamoxifen and the phosphatidylinositol 3-kinase (PI3-K) inhibitor LY294002. In glutamate and OGD-induced neuronal damage, long-term pretreatment was not effective. In contrast, short-term (1 hr) pretreatment with 17 ␤-estradiol in the dose range of 0.5-1.0 M significantly reduced the release of lactate dehydrogenase and improved morphology of cortical cultures exposed to glutamate or OGD but was not effective in the AF64A model. Staurosporine-induced apoptosis was not prevented by either long-or short-term pretreatment. The strong expression of the estrogen receptor-␣ and the modulation of Bcl proteins by 17 ␤-estradiol in hippocampal and septal but not in cortical cultures indicates that the prevention of apoptotic, but not of necrotic, neuronal cell death by 17 ␤-estradiol possibly depends on the induction of Bcl proteins and the density of estrogen receptor-␣.Key words: apoptosis; necrosis; estradiol; AF64A; staurosporine; oxygen-glucose deprivation; primary neuronal cultures; hippocampus; cortex; septum; Alzheimer' s diseaseThe neuroprotective potential of estrogens has gained increasing attention during the last years. Epidemiological evidence suggests that estrogen replacement therapy for postmenopausal women is associated with an improvement of some measures of cognitive performance, protection against cognitive deterioration, and decreased incidence of Alzheimer's disease

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Inhibition of histone deacetylation protects wildtype but not gelsolin-deficient mice from ischemic brain injury

Yildirim

Gertz

Kronenberg

et al. 2008

Experimental Neurology

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Christoph Harms

Physical Activity Improves Long-Term Stroke Outcome via Endothelial Nitric Oxide Synthase–Dependent Augmentation of Neovascularization and Cerebral Blood Flow

Mild Cerebral Ischemia Induces Loss of Cyclin-Dependent Kinase Inhibitors and Activation of Cell Cycle Machinery before Delayed Neuronal Cell Death

Protective effects of PJ34, a novel, potent inhibitor of poly(ADP-ribose) polymerase (PARP) in in vitro and in vivo models of stroke

Neuroprotective effects of atorvastatin against glutamate‐induced excitotoxicity in primary cortical neurones

SUMO2/3 Conjugation is an Endogenous Neuroprotective Mechanism

Protein kinase CK2 links extracellular growth factor signaling with the control of p27Kip1 stability in the heart

Differential Mechanisms of Neuroprotection by 17 β-Estradiol in Apoptotic versus Necrotic Neurodegeneration

Inhibition of histone deacetylation protects wildtype but not gelsolin-deficient mice from ischemic brain injury

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