Cláudia S. F. Queiroga scite author profile

The present work demonstrates the ability of CO to prevent apoptosis in a primary culture of astrocytes. For the first time, the antiapoptotic behavior can be clearly attributed to the inhibition of mitochondrial membrane permeabilization (MMP), a key event in the intrinsic apoptotic pathway. In isolated nonsynaptic mitochondria, CO partially inhibits (i) loss of potential, (ii) the opening of a nonspecific pore through the inner membrane, (iii) swelling, and (iv) cytochrome c release, which are induced by calcium, diamide, or atractyloside (a ligand of ANT). CO directly modulates ANT function by enhancing ADP/ATP exchange and prevents its pore-forming activity. Additionally, CO induces reactive oxygen species (ROS) generation, and its prevention by ␤-carotene decreases CO cytoprotection in intact cells as well as in isolated mitochondria, revealing the key role of ROS. On the other hand, CO induces a slight increase in mitochondrial oxidized glutathione, which is essential for apoptosis modulation by (i) delaying astrocytic apoptosis, (ii) decreasing MMP, and (iii) enhancing ADP/ATP translocation activity of ANT. Moreover, CO and GSSG trigger ANT glutathionylation, a post-translational process regulating protein function in response to redox cellular changes. In conclusion, CO protects astrocytes from apoptosis by preventing MMP, acting on ANT (glutathionylation and inhibition of its pore activity) via a preconditioning-like process mediated by ROS and GSSG.

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Carbon Monoxide Modulates Apoptosis by Reinforcing Oxidative Metabolism in Astrocytes

Almeida

Queiroga

Sousa

et al. 2012

Journal of Biological Chemistry

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Background: Low doses of carbon monoxide (CO) prevent apoptosis in several cell models, including astrocytes. Results: CO improves cytochrome c oxidase (COX) activity and induces mitochondrial biogenesis. Bcl-2 expression and interaction with COX is involved in CO signaling. Conclusion: CO stimulates oxidative phosphorylation, improves metabolism, and prevents astrocytic apoptosis. Significance: Metabolism modulation can be a potential strategy against cerebral ischemia.

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Pre‐conditioning induced by carbon monoxide provides neuronal protection against apoptosis

Vieira

Queiroga

Alves

2008

Journal of Neurochemistry

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Carbon monoxide (CO) is an endogenous product of mammalian cells generated by heme-oxygenase, presenting antiapoptotic properties in several tissues. The present work demonstrates the ability of small amounts of exogenous CO to prevent neuronal apoptosis induced by excitotoxicity and oxidative stress in mice primary culture of cerebellar granule cells. Additionally, our data show that endogenous CO is a heme-oxygenase product critical for its anti-apoptotic activity. Despite being neuroprotective, CO also induces reactive oxygen species generation in neurons. These two phenomena suggest that CO induces pre-conditioning (PC) to prevent cell death. The role of several PC mediators, namely soluble guanylyl cyclase, nitric oxide (NO) synthase, and ATPdependent mitochondrial K channel (mitoK ATP ) was addressed. Inhibition of soluble guanylyl cyclase or NO synthase activity, or closing of mitoK ATP abolishes the protective effect conferred by CO. In addition, CO treatment triggers cGMP and NO production in neurons. Opening of mitoK ATP , which appears to be critical for CO prevention of apoptosis, might be a later event. We also demonstrated that reactive oxygen species generation and de novo protein synthesis are necessary for CO PC effect and neuroprotection. In conclusion, CO induces PC and prevents neuronal apoptosis, therefore constituting a novel and promising candidate for neuroprotective therapies.

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