Cyclophilin D inactivation protects axons in experimental autoimmune encephalomyelitis, an animal model of multiple sclerosis

Forte, Michael; Gold, Bruce G.; Marracci, Gail; Chaudhary, Poras; Basso, Emy; Johnsen, Dustin; Yu, Xiaolin; Fowlkes, Jonathan; Bernardi, Paolo; Bourdette, Dennis

doi:10.1073/pnas.0702228104

Cited by 188 publications

(160 citation statements)

References 53 publications

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“…Recently, it was shown that when mice null for the cyclophilin D gene were induced with EAE, they recovered earlier than their wild-type counterparts (Forte et al, 2007). Although these null mice had similar inflammatory scores as wild-type controls, they had more spared axons, which were attributed to the neurons in cyclophilin D null mice being more resistant to the reactive oxygen and nitrogen species encountered in EAE (Forte et al, 2007).…”

Section: Discussionmentioning

confidence: 99%

EMMPRIN: A Novel Regulator of Leukocyte Transmigration into the CNS in Multiple Sclerosis and Experimental Autoimmune Encephalomyelitis

Agrawal¹,

Silva²,

Tourtellotte³

et al. 2011

J. Neurosci.

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Extracellular matrix metalloproteinase inducer (EMMPRIN, CD147) is a member of the Ig superfamily, with various physiological roles including the induction of matrix metalloproteinases (MMPs), leukocyte activation, and tumor progression. In this study, we illustrate a novel involvement of EMMPRIN in multiple sclerosis (MS) and its animal model, experimental autoimmune encephalomyelitis (EAE). We found EMMPRIN levels to be upregulated on peripheral leukocytes before onset of EAE clinical signs and on infiltrating leukocytes and resident cells within the CNS in symptomatic mice. In EAE brain sections, EMMPRIN expression was localized with MMP-9 protein and activity. The increased EMMPRIN level was also characteristic of brain samples from MS subjects, particularly in plaque-containing areas. To evaluate the implications of elevated EMMPRIN levels, we treated EAE mice with an EMMPRIN function-blocking antibody and found reduced EAE clinical severity accompanied by decreased CNS parenchymal infiltration of leukocytes. Amelioration of EAE clinical signs by the anti-EMMPRIN antibody was critically dependent on its administration around the period of onset of clinical signs, which is typically associated with significant influx of leukocytes into the CNS. Moreover, the reduction in disease severity in anti-EMMPRINtreated mice was associated with diminished MMP proteolytic activity at the glia limitans, the final barrier before parenchymal infiltration of leukocytes. Together, our results are the first to emphasize a role for EMMPRIN in MS and EAE, whereby EMMPRIN regulates leukocyte trafficking through increasing MMP activity. These results identify EMMPRIN as a novel therapeutic target in MS.

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Section: Discussionmentioning

confidence: 99%

EMMPRIN: A Novel Regulator of Leukocyte Transmigration into the CNS in Multiple Sclerosis and Experimental Autoimmune Encephalomyelitis

Agrawal¹,

Silva²,

Tourtellotte³

et al. 2011

J. Neurosci.

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“…More specific evidence for the involvement of mPT in neurological disorders has more recently been obtained with genetically modified mice lacking cyclophilin D, an important modulator of the mPT and the mitochondrial receptor for CsA. The knock-out mediated resistance to cerebral focal ischemia, experimental multiple sclerosis and as well cardiac ischemia [46][47][48].…”

Section: Discussionmentioning

confidence: 99%

Calcium-induced generation of reactive oxygen species in brain mitochondria is mediated by permeability transition

Hansson

Månsson

Morota

et al. 2008

Free Radical Biology and Medicine

106

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Mitochondrial uptake of calcium in excitotoxicity is associated with subsequent increase in reactive oxygen species (ROS) generation and delayed cellular calcium deregulation in ischemic and neurodegenerative insults. The mechanisms linking mitochondrial calcium uptake and ROS production remain unknown but activation of the mitochondrial permeability transition (mPT) may be one such mechanism. In the present study, calcium increased ROS generation in isolated rodent brain and human liver mitochondria undergoing mPT despite an associated loss of membrane potential, NADH and respiration. Unspecific permeabilization of the inner mitochondrial membrane by alamethicin likewise increased ROS independently of calcium, and the ROS increase was further potentiated if NAD(H) was added to the system. Importantly, calcium per se did not induce a ROS increase unless mPT was triggered. Twenty-one cyclosporin A analogs were evaluated for inhibition of calcium-induced ROS and their efficacy clearly paralleled their potency of inhibiting mPT-mediated mitochondrial swelling. We conclude that while intact respiring mitochondria possess powerful antioxidant capability, mPT induces a dysregulated oxidative state with loss of GSH-and NADPH-dependent ROS detoxification. We propose that mPT is a significant cause of pathological ROS generation in excitotoxic cell death.

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“…Given the critical role of calcium accumulations in contused axons, it is important to consider where the intra-axonal calcium is coming from and which downstream mechanisms it initiates. In vitro and in a multitude of neurological conditions, including trauma, ischaemia, inflammation and degeneration 12,26 , a broad range of mechanisms have been implicated as sources for elevated axonal calcium, including extracellular sources (for example, voltage-gated ion channels [17][18][19] , the plasma membrane sodiumcalcium exchanger [20][21][22] , the acid sensing ion channel 27 or nodal glutamate receptors 23 ), as well as intracellular stores (such as mitochondria 28 or the endoplasmic reticulum 29 ). Our in vivo analysis now indicates that mechanoporation, that is, the formation of pores in the plasma membrane as first described after diffused brain injury 24 , is a dominant source of calcium influx at least in the first hours after contusion.…”

Section: Discussionmentioning

confidence: 99%

A recoverable state of axon injury persists for hours after spinal cord contusion in vivo

et al. 2014

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Therapeutic strategies for spinal cord injury (SCI) commonly focus on regenerating disconnected axons. An alternative approach would be to maintain continuity of damaged axons, especially after contusion. The viability of such neuropreservative strategies depends on the degree to which initially injured axons can recover. Here we use morphological and molecular in vivo imaging after contusion SCI in mice to show that injured axons persist in a metastable state for hours. Intra-axonal calcium dynamics influence fate, but the outcome is not invariably destructive in that many axons with calcium elevations recover homeostasis without intervention. Calcium enters axons primarily through mechanopores. Spontaneous pore resealing allows calcium levels to normalize and axons to survive long term. Axon loss can be halted by blocking calcium influx or calpain, even with delayed initiation. Our data identify an inherent self-preservation process in contused axons and a window of opportunity for rescuing connectivity after nontransecting SCI.

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Cyclophilin D inactivation protects axons in experimental autoimmune encephalomyelitis, an animal model of multiple sclerosis

Cited by 188 publications

References 53 publications

EMMPRIN: A Novel Regulator of Leukocyte Transmigration into the CNS in Multiple Sclerosis and Experimental Autoimmune Encephalomyelitis

EMMPRIN: A Novel Regulator of Leukocyte Transmigration into the CNS in Multiple Sclerosis and Experimental Autoimmune Encephalomyelitis

Calcium-induced generation of reactive oxygen species in brain mitochondria is mediated by permeability transition

A recoverable state of axon injury persists for hours after spinal cord contusion in vivo

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