Nakul P. Thakore scite author profile

: A vast literature extolling the benefits of melatonin has accumulated during the past four decades. Melatonin was previously considered of importance to seasonal reproduction and circadian rhythmicity. Currently, it appears to be a versatile anti‐oxidative and anti‐nitrosative agent, a molecule with immunomodulatory actions and profound oncostatic activity, and also to play a role as a potent neuroprotectant. Nowadays, melatonin is sold as a dietary supplement with differential availability as an over‐the‐counter aid in different countries. There is a widespread agreement that melatonin is nontoxic and safe considering its frequent, long‐term usage by humans at both physiological and pharmacological doses with no reported side effects. Endeavors toward a designated drug status for melatonin may be enormously rewarding in clinics for treatment of several forms of neurotrauma where effective pharmacological intervention has not yet been attained. This mini review consolidates the data regarding the efficacy of melatonin as an unique neuroprotective agent in traumatic central nervous system (CNS) injuries. Well‐documented actions of melatonin in combating traumatic CNS damage are compiled from various clinical and experimental studies. Research on traumatic brain injury and ischemia/reperfusion are briefly outlined here as they have been recently reviewed elsewhere, whereas the studies on different animal models of the experimental spinal cord injury have been extensively covered in this mini review for the first time.

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Neuroprotective efficacy of estrogen in experimental spinal cord injury in rats

Samantaray

Sribnick

Das

et al. 2010

Annals of the New York Academy of Sciences

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Spinal cord injury (SCI) leads to neurological deficit and motor dysfunction. Methylprednisolone, the only drug used for treating SCI, renders limited neuroprotection and remains controversial. Estrogen is one of the most potent multi-active neuroprotective agents and it is currently under investigation in our laboratory for its efficacy in SCI. The present review briefly summarizes our earlier findings on the therapeutic potential of pharmacological/supraphysiological levels of estrogen in SCI and outlines our ongoing research, highlighting the efficacy of physiological levels of estrogen against neuronal injury, axonal degeneration, and gliosis and also the molecular mechanisms of such neuroprotection in experimental SCI. Furthermore, our ongoing studies designed to explore the different translational potential of estrogen therapy suggest that this multi-active steroid may act as an adjunct therapy to promote angiogenesis, thus enhancing the functional recovery following chronic SCI. Taken together, these studies confirm that estrogen is a potential therapeutic agent for treating SCI.

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Molecular Changes in Sub-lesional Muscle Following Acute Phase of Spinal Cord Injury

et al. 2015

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To clarify the molecular changes of sublesional muscle in the acute phase of spinal cord injury (SCI), a moderately severe injury (40 g cm) was induced in the spinal cord (T10 vertebral level) of adult male Sprague-Dawley rats (injury) and compared with sham (laminectomy only). Rats were sacrificed at 48 h (acute) post injury, and gastrocnemius muscles were excised. Morphological examination revealed no significant changes in the muscle fiber diameter between the sham and injury rats. Western blot analyses performed on the visibly red, central portion of the gastrocnemius muscle showed significantly higher expression of muscle specific E3 ubiquitin ligases (muscle ring finger-1 and muscle atrophy f-box) and significantly lower expression of phosphorylated Akt-1/2/3 in the injury group compared to the sham group. Cyclooxygenase 2, tumor necrosis factor alpha (TNF-α), and caspase-1, also had a significantly higher expression in the injury group; although, the mRNA levels of TNF-α and IL-6 did not show any significant difference between the sham and injury groups. These results suggest activation of protein degradation, deactivation of protein synthesis, and development of inflammatory reaction occurring in the sublesional muscles in the acute phase of SCI before overt muscle atrophy is seen.

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Calpain Inhibition Prevents Ethanol-Induced Alterations in Spinal Motoneurons

et al. 2013

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Long-term exposure of ethanol (EtOH) alters the structure and function in brain and spinal cord. The present study addresses the mechanisms of EtOH-induced damaging effects on spinal motoneurons in vitro. Altered morphology and biochemical changes of such damage were demonstrated by in situ Wright staining and DNA ladder assay. EtOH at low to moderate (25–50 mM) concentrations induced damaging effects in the motoneuronal scaffold which involved activation of proteases like μ-calpain and caspase-3. Caspase-8 was seen only at higher (100 mM) EtOH concentration. Further, pretreatment with calpeptin, a potent calpain inhibitor, confirmed the involvement of active proteases in EtOH-induced damage to motoneurons. The lysosomal enzyme cathepsin D was also elevated in the motoneurons by EtOH, and this effect was significantly attenuated by inhibitor treatment. Overall, EtOH exposure rendered spinal motoneurons vulnerable to damage, and calpeptin provided protection, suggesting a critical role of calpain activation in EtOH-induced alterations in spinal motoneurons.

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Nakul P. Thakore

Therapeutic potential of melatonin in traumatic central nervous system injury

Neuroprotective efficacy of estrogen in experimental spinal cord injury in rats

Molecular Changes in Sub-lesional Muscle Following Acute Phase of Spinal Cord Injury

Calpain Inhibition Prevents Ethanol-Induced Alterations in Spinal Motoneurons

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