Implication of oxidative stress, aging and inflammatory processes in neurodegenerative diseases: growth factors as therapeutic approach.

HERRERA MACARENA ; FALOMIR-LOCKHART EUGENIA; DOLCETTI FRANCO ; ARNAL, NATHALIE; BELLINI MARIA JOSÉ ; HEREÑU CLAUDIA

Psychiatry and Neuroscience Update. 3erd Edition Springer

Springer International Publishing Switzerland

Año: 2018;

The incidence of neurodegenerative diseases is increasing progressively, and unfortunately the molecular mechanisms that lead to them are still unknown. Several studies are advancing in the comprehension of the processes involved in the establishment of the neurodegeneration. In this sense, the current approaches are focus on genes associated with the neurodegenerative diseases, reactional gliosis or microglial activation, pro-inflammatory cytokines production, IL-6 increase as a transcription factor, growth factors decrease, mitochondrial dysfunction, antioxidant defense system, cellular metabolism, protein degradation/ aggregation and oxidative stress triggering redox-dependent signals among others. Parkinson and Alzheimer´s diseases show an increased diagnosis worldwide and are examples of deleterious effects associated with aging. The present chapter is focused on the implication of the oxidative stress, aging and inflammation processes on neurodegenerative alterations that lead to neuronal dysfunctions, tissue disturbances and motor-cognitive disorders. In regard to this, the neurotrophic factors of clinical interest prevent the degeneration and enhance recovery of remaining neurons. Among them, insulin-like growth factor 1 (IGF-1), which is strongly induced by microglial cells after different insults such as ischemia, cortical injury and inflammatory processes, is emerging as a powerful neuroprotective molecule. For this reason, we will close this chapter with the implications of IGF-1 on neurodegenerative diseases as a key neuroprotective and neuromodulator molecule.