Matrix metalloproteinases inhibition provides neuroprotection against hypoxia‐ischemia in the developing brain

Chen, Wanqiu; Hartman, Richard E.; Ayer, Robert; Marcantonio, Suzanne; Kamper, Joel E.; Tang, Jiping; Zhang, Junyi

doi:10.1111/j.1471-4159.2009.06362.x

Cited by 109 publications

(91 citation statements)

References 33 publications

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“…Furthermore, a significant DOX effect was noted for platform jumping, with the sensitivity of placebo-pelleted C57 mice to acute morphine being reduced after DOX administration. It is possible that chronic morphine-induced inflammatory effects, such as increases in IL-1b or other cytokines (Liu et al, 2011;Merighi et al, 2013) might be reduced by DOX itself because DOX is reported to have modest anti-inflammatory effects at high doses (Chen et al, 2009;Chaudhry et al, 2010). Further, DOX increased the ED 50 on the %MPE in the tail-flick assay for all morphine-pelleted groups (no increase was noted in placebopelleted mice).…”

Section: Discussionmentioning

confidence: 98%

Morphine Tolerance and Physical Dependence Are Altered in Conditional HIV-1 Tat Transgenic Mice

Fitting

Stevens

Khan

et al. 2015

Journal of Pharmacology and Experimental Therapeutics

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Despite considerable evidence that chronic opiate use selectively affects the pathophysiologic consequences of human immunodeficiency virus type 1 (HIV-1) infection in the nervous system, few studies have examined whether neuro-acquired immune deficiency syndrome (neuroAIDS) might intrinsically alter the pharmacologic responses to chronic opiate exposure. This is an important matter because HIV-1 and opiate abuse are interrelated epidemics, and HIV-1 patients are often prescribed opiates as a treatment of HIV-1-related neuropathic pain. Tolerance and physical dependence are inevitable consequences of frequent and repeated administration of morphine. In the present study, mice expressing HIV-1 Tat in a doxycycline (DOX)-inducible manner [Tat(1)], their Tat(2) controls, and control C57BL/6 mice were chronically exposed to placebo or 75-mg morphine pellets to explore the effects of Tat induction on morphine tolerance and dependence. Antinociceptive tolerance and locomotor activity tolerance were assessed using tail-flick and locomotor activity assays, respectively, and physical dependence was measured with the platform-jumping assay and recording of other withdrawal signs. We found that Tat(1) mice treated with DOX [Tat(1)/DOX] developed an increased tolerance in the tail-flick assay compared with control Tat(2)/DOX and/or C57/DOX mice. Equivalent tolerance was developed in all mice when assessed by locomotor activity. Further, Tat(1)/DOX mice expressed reduced levels of physical dependence to chronic morphine exposure after a 1-mg/kg naloxone challenge compared with control Tat(2)/DOX and/or C57/DOX mice. Assuming the results seen in Tat transgenic mice can be generalized to neuroAIDS, our findings suggest that HIV-1-infected individuals may display heightened analgesic tolerance to similar doses of opiates compared with uninfected individuals and show fewer symptoms of physical dependence.

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Section: Discussionmentioning

confidence: 98%

Morphine Tolerance and Physical Dependence Are Altered in Conditional HIV-1 Tat Transgenic Mice

Fitting

Stevens

Khan

et al. 2015

Journal of Pharmacology and Experimental Therapeutics

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“…This balance between the two molecules is thought to reduce brain damage in HI events by protecting the blood-brain barrier (7). MMP inhibition provides neuroprotection against HI in the developing brain (21). A neuroprotective role for TIMP-1 in excitotoxic damage and ischemia has been previously proposed (10,11,22).…”

Section: Mmp-9/timp-1 In Perinatal Brain Injurymentioning

confidence: 99%

Increased MMP-9 and TIMP-1 in mouse neonatal brain and plasma and in human neonatal plasma after hypoxia–ischemia: a potential marker of neonatal encephalopathy

et al. 2011

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ArticlesTranslational Investigation nature publishing group INTRODUCTION:To implement neuroprotective strategies in newborns, sensitive and specific biomarkers are needed for identifying those who are at risk for brain damage. We evaluated the effectiveness of matrix metalloproteinases (MMPs) and their naturally occurring tissue inhibitors of metalloproteinases (TIMPs) in predicting neonatal encephalopathy (Ne) damage in newborns. RESULTS: Plasma MMP-9 and TIMP-1 levels were upregulated as early as 1 h after the hI insult but not did not show such elevations after other types of injury (ibotenate-induced excitotoxicity, hypoxia, lipopolysaccharide-induced inflammation), and brain levels reflected this increase soon thereafter. We confirmed these results by carrying out plasma MMP-9 and TIMP-1 measurements in human newborns with Ne. In these infants, protein levels of MMP-9 and TIMP-1 were found to be elevated during a short window up to 6 h after birth. DISCUSSION: This feature is particularly useful in identifying newborns in need of neuroprotection. a second peak observed 72 h after birth is possibly related to the second phase of energy failure after a hI insult. Our data, although preliminary, support the use of MMP-9 and TIMP-1 as early biomarkers for the presence and extent of perinatal brain injury in human term newborns. METHODS: We first used a mouse model of neonatal hI injury to explore mechanistic aspects such as the time course of these markers after the hypoxia-ischemia event, and the correlation between the levels of these candidate markers in brain and plasma.T he major perinatal brain lesions associated with cerebral palsy and cognitive impairment are periventricular white matter damage and cortical-subcortical lesions, observed mainly in preterm and term infants, respectively (1,2). A crucial step for the implementation of neuroprotective therapies is the rapid detection of neonates at risk. Despite this urgent need, no appropriate and easily detectable biomarkers for perinatal injury are currently available.Matrix metalloproteinases (MMPs) and tissue inhibitors of metalloproteinases (TIMPs) are involved in multiple processes during development and in adulthood (3-5), including perinatal hypoxia-ischemia (HI) and white matter damage in human neonates. Recent studies in adult MMP-9 knockout mice have demonstrated the key role played by this metalloproteinase in the pathophysiology of traumatic and hypoxic-ischemic (HI) brain injury (6). Concordantly, MMP-9 has been shown to have deleterious effects in the immature brain after HI injury (7). Several of these studies demonstrated a significant increase in MMP-9 expression in the central nervous system within the first 24 h after the insult. MMP-9 also has long-term beneficial effects on neurovascular remodeling and behavioral recovery after stroke in adult rats (8,9). In the adult rat central nervous system, elevated TIMP-1 expression levels may play a neuroprotective role after kainate-induced excitotoxic seizures (10), and gene transfer of TIMP-...

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“…For the endothelium, much in vivo evidence exists to support a role for MMP-mediated occludin proteolysis, particularly during blood-brain barrier (BBB) pathologies. Rodent models of cerebral ischemic injury, for example, demonstrate elevated levels of MMP-2/9 leading to occludin fragmentation in brain microvessels, with resultant elevated leakage and brain edema (13,20,64,114,128). Yang et al (128) went on to describe the temporal dynamics of these events, confirming that constitutively active MMP-2 is responsible for occludin cleavage and TJ "loosening" during the early transient phase of the ischemia (3 h), while MMP-9 and other products of extended neuroinflammation and reperfusion injury (e.g., reactive oxygen species) cause further occludin degradation and more long-term (24-h) alterations to BBB integrity.…”

Section: Proteolytic Degradation (I) Mmp-dependent Proteolysismentioning

confidence: 99%

Occludin: One Protein, Many Forms

Cummins

2012

Molecular and Cellular Biology

343

260

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Intercellular tight junctions (TJs) exhibit a complex molecular architecture involving the regulated cointeraction of cytoplasmic adaptor proteins (e.g., zonula occludens) and integral membrane linker proteins (e.g., occludin and claudins). They provide structural integrity to epithelial and endothelial tissues and create highly polarized barriers essential to homeostatic maintenance within vertebrate physiological systems, while their dysregulation is an established pathophysiological hallmark of many diseases (e.g., cancer, stroke, and inflammatory lung disease). The junctional complex itself is a highly dynamic signaling entity wherein participant proteins constantly undergo a blend of regulatory modifications in response to diverse physiological and pathological cues, ultimately diversifying the overall adhesive properties of the TJ. Occludin, a 65-kDa tetraspan integral membrane protein, contributes to TJ stabilization and optimal barrier function. This paper reviews our current knowledge of how tissue occludin is specifically modified at the posttranscriptional and posttranslational levels in diverse circumstances, with associated consequences for TJ dynamics and epithelial/endothelial homeostasis. Mechanistic concepts such as splice variance and alternate promoter usage, proteolysis, phosphorylation, dimerization, and ubiquitination are comprehensively examined, and possible avenues for future investigation highlighted. (34), is an intramembrane multiprotein complex that provides apical intercelluar connections between adjacent cells in both epithelial and endothelial monolayers. Working in concert with other structurally distinct intercellular junctions (adherens junctions, gap junctions, and desmosomes), TJs provide structural integrity to tissues and create highly polarized barriers with selective paracellular permeability to water, solutes, larger molecules, and other cells, an essential feature of homeostatic maintenance within vertebrate physiological systems. Over the years, additional roles for TJs in cellular differentiation, proliferation, migration, signal transduction, and gene expression have also emerged, highlighting their functional diversity (for reviews, see references 10, 73, and 106), while TJ dysregulation has been associated with the pathogenesis of various diseases, including cancers, stroke, diabetic retinopathy, pulmonary disorders, and inflammatory bowel disease (38). TIGHT JUNCTIONS AND OCCLUDIN T ight junctions. The tight junction (TJ), originally identified in the early 1960s by Farquhar and PaladeThe molecular architecture of the TJ exhibits a complex arrangement of cointeracting cytoplasmic adaptor proteins (e.g., zonula occludens [ZO-1, ZO-2, and ZO-3], as well as 7H6, AF6, vinculin, and cingulin), which mediate the cytoskeletal tethering and cell-cell partnering of transmembrane linker proteins (e.g., occludin, claudins, and junctional adhesion molecules 1, 2, and 3) (1). The overall junctional complex is therefore a highly dynamic signaling entity in which the individual ...

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Matrix metalloproteinases inhibition provides neuroprotection against hypoxia‐ischemia in the developing brain

Cited by 109 publications

References 33 publications

Morphine Tolerance and Physical Dependence Are Altered in Conditional HIV-1 Tat Transgenic Mice

Morphine Tolerance and Physical Dependence Are Altered in Conditional HIV-1 Tat Transgenic Mice

Increased MMP-9 and TIMP-1 in mouse neonatal brain and plasma and in human neonatal plasma after hypoxia–ischemia: a potential marker of neonatal encephalopathy

Occludin: One Protein, Many Forms

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