Erica Daniela González-Renovato

By Genaro Gabriel Ortiz, Fermín P. Pacheco-Moisés, Erika D. González- Renovato, Luis Figuera, Miguel A. Macías-Islas, Mario Mireles- Ramírez, L. Javier Flores-Alvarado, Angélica Sánchez-López, Dhea G. Nuño-Penilla, Irma E. Velázquez- Brizuela, Juan P. Sánchez-Luna and Alfredo Célis de la Rosa

Part of the book: Alzheimer's Disease

By Genaro Gabriel Ortiz, Fermín P. Pacheco-Moisés, Mario A. Mireles- Ramírez, L. Javier Flores-Alvarado, Héctor González-Usigli, Angélica L. Sánchez-López, Lorenzo Sánchez-Romero, Irma E. Velázquez- Brizuela, Erika Daniela González-Renovato and Erandis Dheni Torres-Sánchez

Epidemiological studies have found an increased risk of Parkinson’s disease (PD) with environmental factors such as exposure to substances derived from industrial processes, use of agrochemicals, or living in a rural environment. The hypothesis that certain environmental toxins could be the source of the EP is supported by the discovery that chemicals such as herbicides paraquat, diquat, and the fungicide maneb are selectively toxic in nigrostriatal dopaminergic neurons. Also, one of the insecticides produced by plants, such as rotenone, and by-product of the synthesis of synthetic heroin MPTP (1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine) can be reproduced in animal models where neurochemicals, histopathological, and clinical characteristic of PD can be found. Interestingly, there are similarities in the chemical structure of paraquat and MPTP. Recent evidence exhibited that inflammation and oxidative stress play an essential role in the development of PD. So, in our laboratory we found that in an animal model melatonin decreases the products of lipid oxidation, nitric oxide metabolites, and the activity of cyclooxygenase 2, which are induced by an intraperitoneal injection of MPTP. This suggests that the neuroprotective effects of melatonin are partially attributed to its antioxidant scavenging and anti-inflammatory action.

Part of the book: Free Radicals and Diseases

By Genaro G. Ortiz, Fermín P. Pacheco‐Moisés, Erandis D. Torres‐ Sánchez, Tanya E. Sorto‐Gómez, Mario Mireles‐Ramírez, Alfredo León‐Gil, Héctor González‐Usigli, Luis J. Flores‐Alvarado, Erika D. González‐Renovato, Angelica L. Sánchez‐López, Margarita Cid‐ Hernández and Irma E. Velázquez‐Brizuela

Multiple sclerosis (MS) is an autoimmune disease of the central nervous system (CNS) with a focus on inflammation, demyelination, and damage to axons leading to neurological deficits. MS pathology is associated with excessive reactive oxygen species (ROS) and generation of reactive nitrogen species (RNS), causing oxidative/nitrosative stress. Deregulation of glutathione homeostasis and alterations in glutathione‐dependent enzymes are implicated in MS. Reactive oxygen species enhance both monocyte adhesion and migration across brain endothelial cells. In addition, ROS can activate the expression of the nuclear transcription factor‐kappa, which upregulates the expression of many genes involved in MS, such as tumor necrosis factor‐α and nitric oxide synthase, among others, leading to mitochondrial dysfunction and energy deficits that result in mitochondrial and cellular calcium overload. Loss of mitochondrial membrane potential can increase the release of cytochrome c, one pathway that leads to neuronal apoptosis. Clinical studies suggest that omega‐3 long‐chain polyunsaturated fatty acids (PUFAs) including eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA) have anti‐inflammatory, antioxidant, and neuroprotective effects in MS and animal models of MS. Here, we review the relationship of oxidative stress, the glutathione redox system, the ATPase system, and membrane fluidity with the development of MS. In addition, we describe the main findings of a clinical trial conducted with relapsing‐remitting MS patients who received a diet supplemented with 4 g/day of fish oil or olive oil. The effects of PUFAs supplementation on the parameters indicated above are analyzed in this work.

Part of the book: Trending Topics in Multiple Sclerosis

By Genaro Gabriel Ortiz, Héctor González-Usigli, Fermín P. Pacheco- Moisés, Mario A. Mireles-Ramírez, Angélica Lizeth Sánchez-López, Erandis Dheni Torres-Sánchez, Erika Daniela González-Renovato, Luis Javier Flores-Alvarado, Miguel Ángel Macías-Islas, Paloma Rivero-Moragrega and Víctor Sánchez González

Parkinson’s disease (PD) is a neurodegenerative disease that affects 1% of the population aged 65 and over and is the second most common neurodegenerative disease next to Alzheimer’s disease. Interneuronal proteinaceous inclusions called Lewy bodies (LB) and a selective degeneration of dopaminergic neurons of the substantia nigra pars compacta (SNPC) are the main features of PD pathology. The most common clinical manifestations are rigidity, tremor, bradykinesia, postural instability, sleep disorders, alterations in gait, smell, memory, and dementia. Genetic and environmental factors are involved in PD, and, recently, oxidative stress, proteasome-mediated protein degradation, and inflammation have acquired relevance as major mechanisms of neuronal dysfunction. Increased levels of reactive oxygen and nitrogen species in the brain contribute to greater vulnerability of proteins to nitro-oxidative modification and to greater degrees of aggregation. These protein aggregates contain a variety of proteins of which α-synuclein appears to be the main structural component. Interestingly, α-synuclein can be secreted by neuronal cells and may lead the initiation and the maintenance of inflammatory events through the activation of microglia, which contributes to dopaminergic neuron depletion. New evidence also suggests that PD may be the result of an autoimmune response in which the immune cells recognize the neurons as foreign elements and would act against them, causing their death.

Part of the book: Physiology and Pathology of Immunology