Hydrogen Sulfide Attenuates Neuronal Injury Induced by Vascular Dementia Via Inhibiting Apoptosis in Rats

Zhang, Limei; Jiang, Cai-Xiao; Liu, Dianwu

doi:10.1007/s11064-009-0006-9

Cited by 80 publications

(52 citation statements)

References 55 publications

(66 reference statements)

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“…This may be attributable to the hypothesis that a lower concentration of H 2 S exerts a protective effect on cells while higher levels of H 2 S exposure lead to cytotoxicity (41). In the present study, 14 µmol/kg/day NaHS was intraperitoneally administered, and it has previously been confirmed that the protective effect against neuronal injury conferred by NaHS is dose-dependent (42). In addition to its function as an inhibitor of CBS, hydroxylamine can be metabolized to NO (43), which may be neurotoxic and contributes to neuronal damage (44).…”

Section: A B C Dsupporting

confidence: 61%

Hydrogen sulfide improves neural function in rats following cardiopulmonary resuscitation

Lin

Zhang

Wang

et al. 2015

Experimental and Therapeutic Medicine

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Abstract. The alleviation of brain injury is a key issue following cardiopulmonary resuscitation (CPR). Hydrogen sulfide (H 2 S) is hypothesized to be involved in the pathophysiological process of ischemia-reperfusion injury, and exerts a protective effect on neurons. The aim of the present study was to investigate the effects of H 2 S on neural functions following cardiac arrest (CA) in rats. A total of 60 rats were allocated at random into three groups. CA was induced to establish the model and CPR was performed after 6 min. Subsequently, sodium hydrosulfide (NaHS), hydroxylamine or saline was administered to the rats. Serum levels of H 2 S, neuron-specific enolase (NSE) and S100β were determined following CPR. In addition, neurological deficit scoring (NDS), the beam walking test (BWT), prehensile traction test and Morris water maze experiment were conducted. Neuronal apoptosis rates were detected in the hippocampal region following sacrifice. After CPR, as the H 2 S levels increased or decreased, the serum NSE and S100β concentrations decreased or increased, respectively (P<0.0w. The NDS results of the NaHS group were improved compared with those of the hydroxylamine group at 24 h after CPR (P<0.05). In the Morris water maze experiment, BWT and prehensile traction test the animals in the NaHS group performed best and rats in the hydroxylamine group performed worst. At day 7, the apoptotic index and the expression of caspase-3 were reduced in the hippocampal CA1 region, while the expression of Bcl-2 increased in the NaHS group; and results of the hydroxylamine group were in contrast. Therefore, the results of the present study indicate that H 2 S is able to improve neural function in rats following CPR.

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Section: A B C Dsupporting

confidence: 61%

Hydrogen sulfide improves neural function in rats following cardiopulmonary resuscitation

Lin

Zhang

Wang

et al. 2015

Experimental and Therapeutic Medicine

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“…Niu and colleagues reported that neutralization of FasL attenuates brain inflammation in a model of experimental stroke in mice [41] . The anti-apoptotic effects of H 2 S have been widely reported by researchers both in vivo and in vitro [42][43][44] . However, few studies have investigated the effects of H 2 S on HS, and even fewer have addressed the underlying mechanisms.…”

Section: Discussionmentioning

confidence: 99%

Sodium hydrosulfide alleviates lung inflammation and cell apoptosis following resuscitated hemorrhagic shock in rats

Cao

Niu

et al. 2013

Acta Pharmacol Sin

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Aim: To investigate the protective effects of hydrogen sulfide (H 2 S) against inflammation, oxidative stress and apoptosis in a rat model of resuscitated hemorrhagic shock. Methods: Hemorrhagic shock was induced in adult male SD rats by drawing blood from the femoral artery for 10 min. The mean arterial pressure was maintained at 35-40 mmHg for 1.5 h. After resuscitation the animals were observed for 200 min, and then killed. The lungs were harvested and bronchoalveolar lavage fluid was prepared. The levels of relevant proteins were examined using Western blotting and immunohistochemical analyses. NaHS (28 μmol/kg, ip) was injected before the resuscitation. Results: Resuscitated hemorrhagic shock induced lung inflammatory responses and significantly increased the levels of inflammatory cytokines IL-6, TNF-α, and HMGB1 in bronchoalveolar lavage fluid. Furthermore, resuscitated hemorrhagic shock caused marked oxidative stress in lung tissue as shown by significant increases in the production of reactive oxygen species H 2 O 2 and ·OH, the translocation of Nrf2, an important regulator of antioxidant expression, into nucleus, and the decrease of thioredoxin 1 expression. Moreover, resuscitated hemorrhagic shock markedly increased the expression of death receptor Fas and Fas-ligand and the number apoptotic cells in lung tissue, as well as the expression of pro-apoptotic proteins FADD, active-caspase 3, active-caspase 8, Bax, and decreased the expression of Bcl-2. Injection with NaHS significantly attenuated these pathophysiological abnormalities induced by the resuscitated hemorrhagic shock. Conclusion: NaHS administration protects rat lungs against inflammatory responses induced by resuscitated hemorrhagic shock via suppressing oxidative stress and the Fas/FasL apoptotic signaling pathway.

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“…The antiapoptotic effect was supported by other studies as well. Zhang et al found out that H 2 S attenuated neuronal injury induced by vascular dementia via inhibiting apoptosis in rats (Zhang et al 2009). In yet another study, H 2 S imparted the cytoprotective effect to PC12 cells against amyloid β (25-35)-induced apoptosis (Tang et al 2008).…”

Section: Anti-apoptosismentioning

confidence: 99%

Brain, Learning, and Memory: Role of H2S in Neurodegenerative Diseases

Nagpure

Bian

2015

Handbook of Experimental Pharmacology

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For more than 300 years, the toxicity of hydrogen sulfide (H2S) has been known to mankind. However, this point of view is changing as an increased interest was observed in H2S biology in the last two decades. The scientific community has succeeded to unravel many important physiological and pathological effects of H2S on mammalian body systems. Thus, H2S is now referred to as a third endogenous gaseous mediator along with nitric oxide and carbon monoxide. Acting as a neuromodulator, H2S facilitates long-term potentiation and regulates intracellular calcium levels, which are important processes in learning and memory. Aberrant endogenous production and metabolism of H2S are implicated in pathogenesis of neurodegenerative diseases including Alzheimer's disease (AD) and Parkinson's disease (PD). Various H2S donors have shown beneficial therapeutic effects in neurodegenerative disease models by targeting hallmark pathological events (e.g., amyloid-β production in AD and neuroinflammation in PD). The results obtained from many in vivo studies clearly show that H2S not only prevents neuronal and synaptic deterioration but also improves deficits in memory, cognition, and learning. The anti-inflammatory, antioxidant, and anti-apoptotic effects of H2S underlie its neuroprotective properties. In this chapter, we will overview the current understanding of H2S in context of neurodegenerative diseases, with special emphasis on its corrective effects on impaired learning, memory, and cognition.

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Hydrogen Sulfide Attenuates Neuronal Injury Induced by Vascular Dementia Via Inhibiting Apoptosis in Rats

Cited by 80 publications

References 55 publications

Hydrogen sulfide improves neural function in rats following cardiopulmonary resuscitation

Hydrogen sulfide improves neural function in rats following cardiopulmonary resuscitation

Sodium hydrosulfide alleviates lung inflammation and cell apoptosis following resuscitated hemorrhagic shock in rats

Brain, Learning, and Memory: Role of H2S in Neurodegenerative Diseases

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