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1.
Curr Med Chem ; 29(19): 3483-3498, 2022.
Artículo en Inglés | MEDLINE | ID: mdl-35125076

RESUMEN

BACKGROUND AND OBJECTIVE: Stroke, a leading cause of mortality and disability, characterized by neuronal death, can be induced by a reduction or interruption of blood flow. In this study, the role of Alamandine, a new peptide of the renin-angiotensin system, was evaluated in in-vitro and in-vivo brain ischemia models. METHODS: In the in-vitro model, hippocampal slices from male C57/Bl6 mice were placed in a glucose-free aCSF solution and bubbled with 95% N2 and 5% CO2 to mimic brain ischemia. An Alamandine concentration-response curve was generated to evaluate cell damage, glutamatergic excitotoxicity, and cell death. In the in-vivo model, cerebral ischemia/ reperfusion was induced by bilateral occlusion of common carotid arteries (BCCAo-untreated) in SD rats. An intracerebroventricular injection of Alamandine was given 20-30 min before BCCAo. Animals were subjected to neurological tests 24 h and 72 h after BCCAo. Cytokine levels, oxidative stress markers, and immunofluorescence were assessed in the brain 72 h after BCCAo. RESULTS: Alamandine was able to protect brain slices from cellular damage, excitotoxicity and cell death. When the Alamandine receptor was blocked, protective effects were lost. ICV injection of Alamandine attenuated neurological deficits of animals subjected to BCCAo and reduced the number of apoptotic neurons/cells. Furthermore, Alamandine induced anti-inflammatory effects in BCCAo animals as shown by reductions in TNFα, IL- 1ß, IL-6, and antioxidant effects through attenuation of the decreased SOD, catalase, and GSH activities in the brain. CONCLUSION: This study showed, for the first time, a neuroprotective role for Alamandine in different ischemic stroke models.


Asunto(s)
Isquemia Encefálica , Accidente Cerebrovascular Isquémico , Fármacos Neuroprotectores , Daño por Reperfusión , Accidente Cerebrovascular , Animales , Isquemia Encefálica/metabolismo , Modelos Animales de Enfermedad , Humanos , Masculino , Ratones , Neuroprotección , Fármacos Neuroprotectores/farmacología , Fármacos Neuroprotectores/uso terapéutico , Oligopéptidos , Ratas , Ratas Sprague-Dawley , Daño por Reperfusión/metabolismo , Accidente Cerebrovascular/tratamiento farmacológico
2.
Brain Res Bull ; 152: 246-256, 2019 10.
Artículo en Inglés | MEDLINE | ID: mdl-31323280

RESUMEN

Stroke is one of the leading causes of mortality and morbidity worldwide. Due to its poor prognosis, there is a major negative impact on the patients and their family's life quality. However, despite the severity of this pathology tissue plasminogen activator (tPA) is the only FDA approved treatment for ischemic stroke. Moreover, there is no effective treatment for hemorrhagic stroke and only some palliative procedures are often performed to improve the patient's quality of life. Considering this, nanotechnology can offer some advantages for the development of new therapies for stroke. Among the various types of nanomaterials, liposomes are the most extensively studied due to their biocompatibility, biodegradability, and low toxicity. Liposomes, as a drug delivery system, are able to mask therapeutic compounds and allow their passage through the blood-brain barrier. Liposomes also protect drugs from degradation in a biological environment, increasing the circulation time and accumulation in the target tissue. Hence, this review highlights the potential of liposomes applications for delivery of therapeutic compounds for treating stroke.


Asunto(s)
Sistemas de Liberación de Medicamentos/métodos , Liposomas/uso terapéutico , Accidente Cerebrovascular/tratamiento farmacológico , Animales , Barrera Hematoencefálica/efectos de los fármacos , Isquemia Encefálica/tratamiento farmacológico , Modelos Animales de Enfermedad , Humanos , Liposomas/metabolismo , Calidad de Vida , Activador de Tejido Plasminógeno/farmacología
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