Influences of the circadian clock on neuronal susceptibility to excitotoxicity

doi:10.3389/fphys.2013.00313

Review

. 2013 Nov 5:4:313.

doi: 10.3389/fphys.2013.00313.

Influences of the circadian clock on neuronal susceptibility to excitotoxicity

Sumedha W Karmarkar¹, Shelley A Tischkau

Affiliations

PMID: 24204346
PMCID: PMC3817863
DOI: 10.3389/fphys.2013.00313

Review

Influences of the circadian clock on neuronal susceptibility to excitotoxicity

Sumedha W Karmarkar et al. Front Physiol. 2013.

. 2013 Nov 5:4:313.

doi: 10.3389/fphys.2013.00313.

Authors

Sumedha W Karmarkar¹, Shelley A Tischkau

Affiliation

¹ Department of Pharmacology, Southern Illinois University School of Medicine Springfield, IL, USA.

PMID: 24204346
PMCID: PMC3817863
DOI: 10.3389/fphys.2013.00313

Abstract

Stroke is the third leading cause of death and the primary cause of morbidity in the United States, thus posing an enormous burden on the healthcare system. The factors that determine the risk of an individual toward precipitation of an ischemic event possess a strong circadian component as does the ischemic event itself. This predictability provided a window of opportunity toward the development of chronopharmaceuticals which provided much better clinical outcomes. Experiments from our lab showed for the first time that neuronal susceptibility to ischemic events follows a circadian pattern; hippocampal neurons being most susceptible to an ischemic insult occurring during peak activity in a rodent model of global cerebral ischemia. We also demonstrated that the SCN2.2 cells (like their in vivo counterpart) are resistant to excitotoxicity by glutamate and that this was dependent on activation of ERK signaling. We are currently working on elucidating the complete neuroprotective pathway that provides a barricade against glutamate toxicity in the SCN2.2 cells. Our future experiments will be engaged in hijacking the neuroprotective mechanism in the SCN2.2 cells and applying it to glutamate-susceptible entities in an effort to prevent their death in the presence of excitotoxicity. Despite the advancement in chronopharmaceuticals, optimal clinical outcome with minimal adverse events are difficult to come by at an affordable price. Superior treatment options require a better understanding of molecular mechanisms that define the disease, including the role of the circadian clock.

Keywords: MAPK; circadian rhythms; excitotoxicity; neurodegeneration; suprachiasmatic nucleus.

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Figures

**Figure 1**
**Light-induced ERK phosphorylation is required for producing an appropriate response to the light stimulus**.

**Figure 2**
**ERK phosphorylation is essential for protecting the SCN2.2 cells from a glutamate insult**.

See this image and copyright information in PMC

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References

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1. Barclay J. L., Shostak A., Leliavski A., Tsang A. H., Johren O., Muller-Fielitz H., et al. (2013). High-fat diet-induced hyperinsulinemia and tissue-specific insulin resistance in Cry-deficient mice. Am. J. Physiol. Endocrinol. Metab. 304, E1053–E1063 10.1152/ajpendo.00512.2012 - DOI - PubMed

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[1] Allen G. C., Earnest D. J. (2002). Real-time analysis of rhythmic gene expression in immortalized suprachiasmatic nucleus cells. Neuroreport 13, 2027–2030 10.1097/00001756-200211150-00007 - DOI - PubMed

[2] Allen G. C., Earnest D. J. (2002). Real-time analysis of rhythmic gene expression in immortalized suprachiasmatic nucleus cells. Neuroreport 13, 2027–2030 10.1097/00001756-200211150-00007 - DOI - PubMed

[3] Al-Omary F. A. (2013). Melatonin: comprehensive profile. Profiles Drug Subst. Excip. Relat. Methodol. 38, 159–226 10.1016/B978-0-12-407691-4.00005-8 - DOI - PubMed

[4] Al-Omary F. A. (2013). Melatonin: comprehensive profile. Profiles Drug Subst. Excip. Relat. Methodol. 38, 159–226 10.1016/B978-0-12-407691-4.00005-8 - DOI - PubMed

[5] Anea C. B., Zhang M., Stepp D. W., Simkins G. B., Reed G., Fulton D. J., et al. (2009). Vascular disease in mice with a dysfunctional circadian clock. Circulation 119, 1510–1517 10.1161/CIRCULATIONAHA.108.827477 - DOI - PMC - PubMed

[6] Anea C. B., Zhang M., Stepp D. W., Simkins G. B., Reed G., Fulton D. J., et al. (2009). Vascular disease in mice with a dysfunctional circadian clock. Circulation 119, 1510–1517 10.1161/CIRCULATIONAHA.108.827477 - DOI - PMC - PubMed

[7] Bae K., Lee C., Sidote D., Chuang K. Y., Edery I. (1998). Circadian regulation of a Drosophila homolog of the mammalian Clock gene: PER and TIM function as positive regulators. Mol. Cell. Biol. 18, 6142–6151 - PMC - PubMed

[8] Bae K., Lee C., Sidote D., Chuang K. Y., Edery I. (1998). Circadian regulation of a Drosophila homolog of the mammalian Clock gene: PER and TIM function as positive regulators. Mol. Cell. Biol. 18, 6142–6151 - PMC - PubMed

[9] Barclay J. L., Shostak A., Leliavski A., Tsang A. H., Johren O., Muller-Fielitz H., et al. (2013). High-fat diet-induced hyperinsulinemia and tissue-specific insulin resistance in Cry-deficient mice. Am. J. Physiol. Endocrinol. Metab. 304, E1053–E1063 10.1152/ajpendo.00512.2012 - DOI - PubMed

[10] Barclay J. L., Shostak A., Leliavski A., Tsang A. H., Johren O., Muller-Fielitz H., et al. (2013). High-fat diet-induced hyperinsulinemia and tissue-specific insulin resistance in Cry-deficient mice. Am. J. Physiol. Endocrinol. Metab. 304, E1053–E1063 10.1152/ajpendo.00512.2012 - DOI - PubMed

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Influences of the circadian clock on neuronal susceptibility to excitotoxicity

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Influences of the circadian clock on neuronal susceptibility to excitotoxicity

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