Minocycline neuroprotects, reduces microgliosis, and inhibits caspase protease expression early after spinal cord injury

Festoff, Barry W.; Ameenuddin, Syed; Arnold, Paul M.; Wong, Alfred; SantaCruz, Karen S.; Citron, Bruce A.

doi:10.1111/j.1471-4159.2006.03799.x

Cited by 214 publications

(130 citation statements)

References 80 publications

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“…In the present study, we used an animal model of thoracic spinal cord injury to better characterize the effect of minocycline on neuroglial activation, both at the primary injury site and additional caudal levels. Consecutive rostral-caudal spreading of secondary lesion was commonly asymmetrical, with the extent of cavitation at post-injury day 28 greater caudally than rostrally 10) . With regard to potential SCI therapies in humans, animals treated with minocycline exhibited an improved recovery of motor function after hemisection.…”

Section: Discussionmentioning

confidence: 99%

“…Furthermore, these authors also demonstrated that minocycline both inhibited the expression of p75 neurotrophin receptors and the activation of Ras homolog gene family member A (RhoA) after SCI. More recently, Festoff et al reported that minocycline also might exert a neuroprotective effect in SCI by reducing microgliosis and inhibiting caspase expression 10) . In combination, this emerging data suggests that minocycline may protect the spinal cord from secondary damage after SCI via several unique pharmacologic mechanisms.…”

Section: Discussionmentioning

confidence: 99%

“…Effective against both gram-positive and -negative infections, minocycline-like all tetracycline-class antibiotics-inhibits protein synthesis at the ribosomal level 1) . In addition to this antimicrobial activity, minocycline has also been reported to exert neuroprotective effects in various experimental models of neurologic injury, including cerebral ischemia, traumatic brain injury, amyotrophic lateral sclerosis, Parkinson's disease, kainic acid treatment, Huntington' disease, multiple sclerosis and Alzheimer' s disease 10,11,33) . Very recently, minocycline has also been suggested for use in the treatment of SCIs.…”

Section: Discussionmentioning

confidence: 99%

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The Effect of Minocycline on Motor Neuron Recovery and Neuropathic Pain in a Rat Model of Spinal Cord Injury

Cho

Cheong

Yang

et al. 2011

J Korean Neurosurg Soc

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Objective : Minocycline, a second-generation tetracycline-class antibiotic, has been well established to exert a neuroprotective effect in animal models and neurodegenerative disease through the inhibition of microglia. Here, we investigated the effects of minocycline on motor recovery and neuropathic pain in a rat model of spinal cord injury. Methods : To simulate spinal cord injury, the rats' spinal cords were hemisected at the 10th thoracic level (T10). Minocycline was injected intraperitoneally, and was administered 30 minutes prior surgery and every second postoperative day until sacrifice 28 days after surgery. Motor recovery was assessed via the Basso-Beattie-Bresnahan test. Mechanical hyperalgesia was measured throughout the 28-day post-operative course via the von Frey test. Microglial and astrocyte activation was assessed by immunohistochemical staining for ionized calcium binding adaptor molecule 1 (Iba1) and glial fibrillary acidic protein (GFAP) at two sites: at the level of hemisection and at the 5th lumbar level (L5). Results : In rats, spinal cord hemisection reduced locomotor function and induced a mechanical hyperalgesia of the ipsilateral hind limb. The expression of Iba1 and GFAP was also increased in the dorsal and ventral horns of the spinal cord at the site of hemisection and at the L5 level. Intraperitoneal injection of minocycline facilitated overall motor recovery and attenuated mechanical hyperalgesia. The expression of Iba1 and GFAP in the spinal cord was also reduced in rats treated with minocycline. Conclusion : By inhibiting microglia and astrocyte activation, minocycline may facilitate motor recovery and attenuate mechanical hyperalgesia in individuals with spinal cord injuries.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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The Effect of Minocycline on Motor Neuron Recovery and Neuropathic Pain in a Rat Model of Spinal Cord Injury

Cho

Cheong

Yang

et al. 2011

J Korean Neurosurg Soc

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“…Caspases are proteases involved in apoptosis, necrosis, and inflammation (Eldadah et al, 2000). After administration of minocycline, a significant decrease in caspase-3 and apoptosis was seen in moderate contusion SCI in rats (Festoff et al, 2006). Additionally, in another contusion model of SCI in rats, inhibitiory action of oxidative stress was observed following minocycline administration, specifically lipid peroxidation (Sonmez et al, 2013).…”

Section: Search Strategymentioning

confidence: 99%

Current Therapeutic Approaches in Spinal Cord Injury: Pharmacological, Rehabilitation, Cell-based, and Psychological Intervention

Lim

Choi

2017

Korean J Str Res

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The purpose of this review is to discuss current therapeutic interventions and their limitations for the optimal treatment outcomes of individuals with spinal cord injury (SCI). SCI leads to neurologic deficits and subsequent severe muscle atrophy. In clinics, despite the controversy, pharmacological therapy using methylprednisolone has widely been accepted to reduce additional neurologic deficits caused by a secondary injury such as oxidative stress and lipid peroxidation. Moreover, it facilitates the recovery process. Since the loss of locomotor function may reduce the quality of life for individuals with SCI, many pre-clinical and clinical studies have focused on the recovery of locomotor function. Various forms of locomotor training such as treadmill training, cycle training, and robotic-assisted training are currently available for individuals with SCI. Additionally the cell-based interventions have been receiving much attention as one of potential therapeutic interventions which required further clarifications due to the issues of safety. The physical impairment associated with spinal cord injury may cause an adverse effect on mental health. It is now recommended that combined physical and psychological interventions should be considered to maximize the efficacy of therapeutic interventions.

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“…Indeed, neuroprotection by minocycline has been observed in various animal models of PD, HD, ALS, MS, cerebral ischemia, spinal cord injury and traumatic brain injury. 85,95,96 The precise mechanism of minocycline's neuroprotective effects remains unclear. It is known, however, that minocycline is a potent inhibitor of caspase-related apoptotic pathways.…”

Section: Currentmentioning

confidence: 99%

The executioners sing a new song: killer caspases activate microglia

et al. 2011

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Activation of microglia and inflammation-mediated neurotoxicity are suggested to have key roles in the pathogenesis of several neurodegenerative disorders. We recently published an article in Nature revealing an unexpected role for executioner caspases in the microglia activation process. We showed that caspases 8 and 3/7, commonly known to have executioner roles for apoptosis, can promote microglia activation in the absence of death. We found these caspases to be activated in microglia of PD and AD subjects. Inhibition of this signaling pathway hindered microglia activation and importantly reduced neurotoxicity in cell and animal models of disease. Here we review evidence suggesting that microglia can have a key role in the pathology of neurodegenerative disorders. We discuss possible underlying mechanisms regulating their activation and neurotoxic effect. We focus on the provocative hypothesis that caspase inhibition can be neuroprotective by targeting the microglia rather than the neurons themselves.

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Minocycline neuroprotects, reduces microgliosis, and inhibits caspase protease expression early after spinal cord injury

Cited by 214 publications

References 80 publications

The Effect of Minocycline on Motor Neuron Recovery and Neuropathic Pain in a Rat Model of Spinal Cord Injury

The Effect of Minocycline on Motor Neuron Recovery and Neuropathic Pain in a Rat Model of Spinal Cord Injury

Current Therapeutic Approaches in Spinal Cord Injury: Pharmacological, Rehabilitation, Cell-based, and Psychological Intervention

The executioners sing a new song: killer caspases activate microglia

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