BackgroundEarly revascularization of ischemic organs is key to improving outcomes, yet consequent reperfusion injury may be harmful. Reperfusion injury is largely attributed to excess mitochondrial production of reactive oxygen species (ROS). Sulfide inhibits mitochondria and reduces ROS production. Ammonium tetrathiomolybdate (ATTM), a copper chelator, releases sulfide in a controlled and novel manner, and may offer potential therapeutic utility.Methods and findingsIn vitro, ATTM releases sulfide in a time-, pH-, temperature-, and thiol-dependent manner. Controlled sulfide release from ATTM reduces metabolism (measured as oxygen consumption) both in vivo in awake rats and ex vivo in skeletal muscle tissue, with a superior safety profile compared to standard sulfide generators. Given intravenously at reperfusion/resuscitation to rats, ATTM significantly reduced infarct size following either myocardial or cerebral ischemia, and conferred survival benefit following severe hemorrhage. Mechanistic studies (in vitro anoxia/reoxygenation) demonstrated a mitochondrial site of action (decreased MitoSOX fluorescence), where the majority of damaging ROS is produced.ConclusionsThe inorganic thiometallate ATTM represents a new class of sulfide-releasing drugs. Our findings provide impetus for further investigation of this compound as a novel adjunct therapy for reperfusion injury.
Background: Several therapeutic strategies to rescue the brain from ischemic injury have improved outcomes after stroke; however, there is no treatment as yet for reperfusion injury, the secondary damage caused by necessary revascularization. Recently we characterized ammonium tetrathiomolybdate (ATTM), a drug used as a copper chelator over many decades in humans, as a new class of sulfide donor that shows efficacy in preclinical injury models. We hypothesized that ATTM could confer neuroprotection in a relevant rodent model of regional stroke.Methods and results: Brain ischemia was induced by transient (90-min) middle cerebral artery occlusion (tMCAO) in anesthetized Wistar rats. To mimic a clinical scenario, ATTM (or saline) was administered intravenously just prior to reperfusion. At 24 h or 7 days post-reperfusion, rats were assessed using functional (rotarod test, spontaneous locomotor activity), histological (infarct size), and molecular (antioxidant enzyme capacity, oxidative damage, and inflammation) outcome measurements. ATTM-treated animals showed improved functional activity at both 24 h and 7-days post-reperfusion, in parallel with a significant reduction in infarct size. These effects were additionally associated with increased brain antioxidant enzyme capacity, decreased oxidative damage, and a late (7-day) effect on proinflammatory cytokine levels and nitric oxide products.Conclusion: ATTM confers significant neuroprotection that, along with its known safety profile in humans, provides encouragement for its development as a novel adjunct therapy for revascularization following stroke.
During chronic limb ischemia, oxidative damage and inflammation are described. Besides oxidative damage, the decrease of tissue oxygen levels is followed by several adaptive responses. The purpose of this study was to determine whether supplementation with N-acetylcysteine (NAC) is effective in an animal model of chronic limb ischemia. Chronic limb ischemia was induced and animals were treated once a day for 30 consecutive days with NAC (30mg/kg). After this time clinical scores were recorded and soleus muscle was isolated and lactate levels, oxidative damage and inflammatory parameters were determined. In addition, several mechanisms associated with hypoxia adaptation were measured (vascular endothelial growth factor - VEGF and hypoxia inducible factor - HIF levels, ex vivo oxygen consumption, markers of autophagy/mitophagy, and mitochondrial biogenesis). The adaptation to chronic ischemia in this model included an increase in muscle VEGF and HIF levels, and NAC was able to decrease VEGF, but not HIF levels. In addition, ex vivo oxygen consumption under hypoxia was increased in muscle from ischemic animals, and NAC was able to decrease this parameter. This effect was not mediated by a direct effect of NAC on oxygen consumption. Ischemia was followed by a significant increase in muscle myeloperoxidase activity, as well as interleukin-6 and thiobarbituric acid reactive substances species levels. Supplementation with NAC was able to attenuate inflammatory and oxidative damage parameters, and improve clinical scores. In conclusion, NAC treatment decreases oxidative damage and inflammation, and modulates oxygen consumption under hypoxic conditions in a model of chronic limb ischemia.
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O objetivo da pesquisa é de identificar os fatores socioeconômicos municipais que determinam o acesso ao ensino superior. Utilizou o modelo econométrico o logit binário. A variável dependente acomodou duas respostas categóricas dummy 1 se tiver acesso a acesso ao ensino superior e dummy 0 caso contrário. As variáveis independentes consideradas foram: analfabetismo, desemprego, educação, PIB per capita, renda domiciliar, sáude e IFDM. A análise de dados foi feita usando o pacote estatístico Eviews a um nível de significância de 5%. Como resultado constou que das variáveis em estudo, apenas a variável analfabetismo não foi estatisticamente significativa. As variáveis, desemprego, renda domiciliar e IFDM foram positivas e estatisticamente significativas, o que quer dizer tiveram uma relação direta. As variáveis PIB per capita, educação e saúde tiveram um sinal negativo (a priore inesperado) e estatisticamente significativas, apresentaram uma relação inversa com a variável dependente. De certa forma, todas as variáveis na prática podem possuir forte influência sobre os munícipes em ter acesso ou não no ensino superior, embora algumas tiveram uma relação negativa.
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