Neuroprotective potential of polydatin against motor abnormalities and dopaminergic neuronal loss in rotenone induced Parkinson model / Potencial neuroprotector de la polidatina contra las anomalías motoras y la pérdida neuronal dopaminérgica en un modelo de Parkinson inducido por la rotenona

Among the neurodegenerative disorders, Parkinson disease (PD) is ranked as second most common. The pathological hallmark is selective degeneration of the dopaminergic neurons in the nigro-striatal regions of brain with appearance of the Lewy bodies. Present study explores the neuro-protective potential of polydatin in terms of amelioration of degeneration of dopaminergic neurons in nigro-striatal regions of brain and distorted neuromotor behavior in the rotenone model of Parkinson's disease. Thirty-six male Sprague Dawley rats were divided into three groups. Group A (control), Group B (rotenone treated) and Group C (rotenone+polydatin treated). Rotenone was administrated intraperitoneally (i.p) at a dose of 3 mg/kg/body weight while polydatin was given i.p. at a dose of 50 mg/ kg/body weight for four weeks. Then, animals were sacrificed; substantia nigra (SN) & striatum isolated from brain and five micron thick sections were prepared. Cresyl violet (CV), H&E and Immuno-histochemical staining using anti-TH antibody was done. Motor behavior was assessed weekly throughout the experiment using five different methods. Rotenone treated parkinsonian animals showed deterioration of motor behavior, weight loss, loss of dopaminergic neurons and diminished immune-reactivity in the sections from the nigrostriatal regions of these animals Polydatin+rotenone treatment showed contradicting effects to parkinsonism, with amelioration in weight loss, neuro-motor behavior, dopaminergic loss and immune-reactivity against dopaminergic neurons. Present study revealed a neuro-protective potential of polydatin in animal model of PD by ameliorating the neuro-motor abnormalities and degeneration of dopaminergic neurons in nigrostriatal regions.

Entre los trastornos neurodegenerativos, la enfermedad de Parkinson (EP) se clasifica como la segunda más común. El sello patológico es la degeneración selectiva de las neuronas dopaminérgicas en las regiones nigro-estriatales del cerebro, con la aparición de los cuerpos de Lewy. El presente estudio explora el potencial de protección neuronal de la polidatina en términos de la mejora de la degeneración de las neuronas dopaminérgicas en las regiones nigro-estriatales del cerebro y el comportamiento neuromotor distorsionado en el modelo de rotenona de la enfermedad de Parkinson. Treinta y seis ratas macho Sprague Dawley se dividieron en tres grupos: Grupo A (control), Grupo B (tratado con rotenona) y Grupo C (tratamiento con rotenona + polidatina). La rotenona se administró por vía intraperitoneal (i.p.) a una dosis de 3 mg/kg/peso corporal, mientras que la polidatina se administró i.p. a una dosis de 50 mg/kg/ peso corporal durante cuatro semanas. Posteriormente, los animales fueron sacrificados. Se aislaron la substantia nigra (SN) y cuerpo estriado de los cerebros y se realizaron secciones de cinco micras de espesor. Se realizó una tinción de violeta de cresilo (CV), H&E y tinción inmunohistoquímica usando anticuerpo anti-TH. El comportamiento motriz se evaluó semanalmente durante todo el experimento utilizando cinco métodos diferentes. Los animales parkinsonianos tratados con rotenona mostraron deterioro del comportamiento motriz, pérdida de peso, pérdida de neuronas dopaminérgicas y disminución de la reactividad inmune en las secciones de las regiones nigroestriadas. El tratamiento con polidatina + rotenona mostró efectos contrarios al parkinsonismo, con mejoría en la pérdida de peso, en el comportamiento motor, en la pérdida dopaminérgica y en la reactividad inmune contra las neuronas dopaminérgicas. El presente estudio reveló un potencial de protección neuronal de la polidatina en el modelo animal de la EP al mejorar las anomalías neuro-motoras y la degeneración de las neuronas dopaminérgicas en las regiones nigroestriatales.

Neumomediastino y necrosis cutánea en asociación a dermatomiositis: presentación de un caso clínico y revisión de la literatura / Pneumomediastinum and cutaneous necrosis in dermatomyositis: Report of one case

We report a 37 years old male with a dermatomyositis treated with oral cyclophosphamide. He was admitted to the hospital due to a zone of skin necrosis with purulent exudate, located in the second left toe. A complete blood count showed a leukocyte count of 2,600 cells/mm³. A Chest CAT scan showed a pneumomediastinum with emphysema of adjacent soft tissue. Cyclophosphamide was discontinued and leukocyte count improved. The affected toe was amputated and a chest CAT scan showed a partial resolution of the pneumomediastinum. We discuss and review the pathogenesis, clinical presentation and management of pneumomediastinum and cutaneous necrosis in association with dermatomyositis.

La combinación de atorvastatina y meloxicam inhibe la neuroinflamación y atenúa el daño celular en la isquemia cerebral experimental por embolia arterial / Atorvastatin-meloxicam association inhibits neuroinflammation and attenuates the cellular damage in cerebral ischemia by arterial embolism.

Introducción. El accidente cerebrovascular es la segunda causa de muerte y la primera de discapacidad en el mundo, y más de 85 % es de origen isquémico. Objetivo. Evaluar en un modelo de infarto cerebral por embolia arterial el efecto de la atorvastatina y el meloxicam, administrados por separado y de forma conjunta, sobre la respuesta neuronal, los astrocitos y la microglia. Materiales y métodos. Se sometieron ratas Wistar a embolia de la arteria carótida y a tratamiento con meloxicam y atorvastatina, administrados por separado y conjuntamente, a las 6, 24, 48 y 72 horas. Se evaluó la reacción de las proteínas COX-2, GFAP y OX-42 en las neuronas, los astrocitos y la microglia mediante inmunohistoquímica y estudios morfológicos y de densitometría. Los datos obtenidos se evaluaron por medio de un análisis de varianza y de pruebas no paramétricas de comparación múltiple. Resultados. La isquemia cerebral por embolia arterial incrementó significativamente (p<0,001) la reacción de los astrocitos y la microglia, en tanto que la atorvastatina y el meloxicam, administrados por separado y de forma conjunta, la redujeron. La isquemia produjo acortamiento de las proyecciones de los astrocitos, engrosamiento celular, ruptura de las expansiones protoplásmicas (clasmatodendrosis) y cambios morfológicos en la microglia propios de diversas etapas de actividad. En las zonas circundantes del foco se incrementó la reacción inmunológica de la COX-2 y se redujo en el foco isquémico, en tanto que el meloxicam y la atorvastatina redujeron significativamente (p<0,001) la reacción inmunológica en la zona circundante del foco, restableciendo la marcación de la ciclooxigenasa en el foco isquémico. Conclusión. La combinación de meloxicam y atorvastatina atenúa la respuesta de los astrocitos y la microglia en el proceso inflamatorio posterior a la isquemia cerebral por embolia arterial, reduciendo la degeneración neuronal y restableciendo el equilibrio morfológico y funcional del tejido nervioso.

Introduction: Stroke is the second leading cause of death and the first cause of disability in the world, with more than 85% of the cases having ischemic origin. Objective: To evaluate in an embolism model of stroke the effect of atorvastatin and meloxicam on neurons, astrocytes and microglia. This evaluation was done administering each medication individually and in association. Materials and methods: Wistar rats were subjected to carotid arterial embolism and treatment with meloxicam and atorvastatin at 6, 24, 48 and 72 hours. Using immunohistochemistry, we evaluated the immunoreactivity of COX-2 protein, GFAP and OX-42 in neurons, astrocytes and microglia by densitometric and morphological studies. Data were evaluated by variance analysis and non-parametric multiple comparison. Results: Cerebral ischemia by arterial embolism increased significantly the reactivity of microglia and astrocytes (p<0.001), whereas it was reduced by atorvastatin, meloxicam and their association. Ischemia produced astrocytic shortening, cellular thickening, protoplasmic rupture expansions (clasmatodendrosis) and microglial morphological changes characteristic of various activity stages. In perifocal areas, immunoreactivity of COX-2 was increased and in the ischemic focus it was reduced, while meloxicam and atorvastatin significantly reduced (p<0.001) perifocal immunoreactivity, restoring the marking of cyclooxygenase in the ischemic focus. Conclusion: These results suggest that the meloxicam-atorvastatin association attenuates astrocytic and microglial response in the inflammatory process after cerebral ischemia by arterial embolism, reducing neurodegeneration and restoring the morphological and functional balance of nervous tissue .

Ischemia preconditioning is neuroprotective in a rat cerebral ischemic injury model through autophagy activation and apoptosis inhibition

Sublethal ischemic preconditioning (IPC) is a powerful inducer of ischemic brain tolerance. However, its underlying mechanisms are still not well understood. In this study, we chose four different IPC paradigms, namely 5 min (5 min duration), 5×5 min (5 min duration, 2 episodes, 15-min interval), 5×5×5 min (5 min duration, 3 episodes, 15-min intervals), and 15 min (15 min duration), and demonstrated that three episodes of 5 min IPC activated autophagy to the greatest extent 24 h after IPC, as evidenced by Beclin expression and LC3-I/II conversion. Autophagic activation was mediated by the tuberous sclerosis type 1 (TSC1)-mTor signal pathway as IPC increased TSC1 but decreased mTor phosphorylation. Terminal deoxynucleotidyl transferase dUTP nick end labeling (TUNEL) and hematoxylin and eosin staining confirmed that IPC protected against cerebral ischemic/reperfusion (I/R) injury. Critically, 3-methyladenine, an inhibitor of autophagy, abolished the neuroprotection of IPC and, by contrast, rapamycin, an autophagy inducer, potentiated it. Cleaved caspase-3 expression, neurological scores, and infarct volume in different groups further confirmed the protection of IPC against I/R injury. Taken together, our data indicate that autophagy activation might underlie the protection of IPC against ischemic injury by inhibiting apoptosis.

Neuroprotective effect of vitamin c against ptz induced apoptotic neurodegeneration in adult rat brain

The present study was designed to observe the effect of PTZ on expression of caspsae-3, and to evaluate the neuroprotective role of vitamin C [vit-C] against PTZ-induced apoptotic neurodegeneration in adult rat brain. We observed that administration of a single conclusive dose of pentylenetetrazol [PTZ 50mg/kg] in adults rats induced epileptic seizure and increased activation of caspase-3 and caused neuronal death. Further, rats were injected with vit-C [250 mg/kg] 30 min before PTZ injection. The protective effect of vit-C against PTZ-induced apoptotic neurodegeneration in adult rat brain was observed using Western blot analysis and Nissl staining. The results showed that conclusive dose of PTZ-induced seizure, increased expression of caspase-3 and neuronal apoptosis in adult rat brain. Whereas, the pretreatment of vit-C along with PTZ showed significantly decreased expression of caspase-3 as compare to control group. Finally, our results indicated that vit-C can prevent some of the deleterious effect of seizure and neuronal degeneration induced by PTZ in adult rat brain

effects of Boswellia resin extract on dopaminergic cell line, SK-N-SH, against MPP[+]-induced neurotoxicity

Oxidative stress and neuroinflammation are involved in neurodegeneration procedure in Parkinson's disease. Recently, neuroprotective potential of Boswellia resin has been demonstrated. Therefore, this study examined whether administration of Boswellia resin would attenuate MPP+- induced neuronal death in SK-N-SH- cell line, a human dopaminergic neurons- in vitro. Boswellia resin extract was added to culture medium [10microg/ml] before and after exposure of SK-N-SH cell line to MPP+ [1000microM]. Cell viability and apoptosis features were assessed using MTT and Hoechst staining, respectively. Treatment with Boswellia resin 2 and 3h prior to MPP ° exposure and up to 60 minutes after MPP ° exposure significantly increased cell viability compare to untreated cells. Apoptotic features were also reduced significantly by Boswellia resin [10 microg/ml] compare to that of control untreated cells. Boswellia resin has neuroprotective effects on dopaminergic neurons which can be applicable in Parkinson's disease

Kurkun or curcumin[diferuloylmethan], The biologically component of turmeric is a pleistropic anti cancer, Anti inflammatory and anti oxidant phytochemical agent

The concept that cancer, chronic inflammation and degenerative diseases of the central nervous system and other vital organs can be postponed or even prevented by certain food-derived substances is currently eliciting considerable interest. Finding pharmacologically safe food-derived agents which are able to interfere with tumour development, inflammation and neurodegeneration is the holy grail of medicine and is therefore of considerable clinical value. Kurkum or Curcumin [diferuloylmethane] is the biologically active component of the naturally occurring yellow pigment in Turmeric which is isolated from the rhizomes of the plant Curcuma longa. Turmeric is widely used in curries in East Indian and Middle Eastern cuisine. Curcumin has received a great deal of attention by numerous biomedical research teams since the 1980's due to its potent anti-cancer, antimetastatic and anti-inflammatory properties. There is also evidence that Curcumin may reverse neurodegeneration in Alzheimer's disease by breaking up amyloid plaques in the brains of Alzheimer's patients. More recent and highly controversial studies suggest that Curcumin may also correct the cystic fibrosis defect in mice. A better understanding of the biological function of Curcumin and structurally related compounds in each of these diseases will help development of clinically safe chemopreventive agents designed for the treatment of many clinical conditions including cancer, chronic inflammatory disease and neurodegeneration. In this review, the properties of Turmeric and its key ingredient Curcumin are discussed in the context of favourable actions against carcinogenesis and inflammation in an effort to highlight their nutritional benefits to Muslim readers of the journal

Algorithms as guides for the prevention of permanent nerve damage in leprosy patients.

The responsibility for treating leprosy patients is being passed on to the general medical and health care services, predominantly located in primary health care centres. It therefore becomes necessary for the staff of these services to have clear guidelines on what they should do to prevent permanent nerve damage and its consequences when they come across a leprosy patient with neuritis or nerve function deficit. Six algorithms to help achieve this purpose are presented in this article.