Molecular neurobiology
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Molecular neurobiology · Oct 2020
ReviewRole of Circular Ribonucleic Acids in the Treatment of Traumatic Brain and Spinal Cord Injury.
The causal and pathogenetic factors linked to traumatic brain injury (TBI) and spinal cord injury (SCI) are complex. This complexity is a contributive factor in the minimal improvement outcomes of injured individuals. Several studies have demonstrated the potentiality of stem cells in facilitating neuronal growth and improve outcome in various neurological conditions, including TBI and SCI. ⋯ Our analyses showed the role of circular RNAs in brain/spinal cord injuries to be multifaceted, as they can modulate several signaling mechanisms while also acting as sponges for microRNAs and binding to their sites. Additionally, circular RNAs can activate several biological, molecular, and cellular activities in the wake of brain/spinal cord injuries. Thus, both non-pharmacological and pharmacological interventions centered on the regulation of circular RNAs could be promising for TBI and SCI.
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Molecular neurobiology · May 2020
ReviewTumor Development and Angiogenesis in Adult Brain Tumor: Glioblastoma.
Angiogenesis is the growth of new capillaries from the preexisting blood vessels. Glioblastoma (GBM) tumors are highly vascularized tumors, and glioma growth depends on the formation of new blood vessels. Angiogenesis is a complex process involving proliferation, migration, and differentiation of vascular endothelial cells (ECs) under the stimulation of specific signals. ⋯ Various angiogenic factors and genes have been identified that stimulate glioma angiogenesis. Therefore, attention has been directed to anti-angiogenesis therapy in which glioma proliferation is inhibited by inhibiting the formation of new tumor vessels using angiogenesis inhibitory factors and drugs. Here, in this review, we highlight and summarize the various molecular mediators that regulate GBM angiogenesis with focus on recent clinical research on the potential of exploiting angiogenic pathways as a strategy in the treatment of GBM patients.
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Molecular neurobiology · Aug 2019
ReviewThe Retina as a Window or Mirror of the Brain Changes Detected in Alzheimer's Disease: Critical Aspects to Unravel.
Alzheimer's disease is the most frequent cause of dementia worldwide, representing a global health challenge, with a massive impact on the quality of life of Alzheimer's disease patients and their relatives. The diagnosis of Alzheimer's disease constitutes a real challenge, because the symptoms manifest years after the first degenerative changes occurring in the brain and the diagnosis is based on invasive and/or expensive techniques. Therefore, there is an urgent need to identify new reliable biomarkers to detect Alzheimer's disease at an early stage. ⋯ Unlike previous reviews on this subject, which are mainly focused on brain changes, we organized this review by comprehensively summarizing findings related with structural, functional, cellular, and molecular parameters in the retina reported in both Alzheimer's disease patients and animal models. Moreover, we separated the studies that assessed only the retina, and those that assessed both the retina and brain, which are few but allow establishing correlations between the retina and brain. This review also highlights some inconsistent results in the literature as well as relevant missing gaps in this field.
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Molecular neurobiology · Aug 2019
ReviewAnimal Models of Traumatic Brain Injury and Assessment of Injury Severity.
Traumatic brain injury (TBI) contributes a major cause of death, disability, and mental health disorders. Most TBI patients suffer long-term post-traumatic stress disorder, cognitive dysfunction, and disability. The underlying molecular and cellular mechanisms of such neuropathology progression in TBI remain elusive. ⋯ Focal injury, a localized injury, is represented by animal models of controlled cortical impact, penetrating ballistic-like brain injury, and Feeney or Shohami weight drop injury. A global diffuse injury is best represented by shock tube model of primary blast injury, and Marmarou or Maryland weight drop model. A mixed injury consists of focal and diffuse injury which reproduces the concussive clinical syndrome, and it is best studied in animal model of lateral fluid percussion injury.
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Molecular neurobiology · Mar 2019
ReviewEndothelial Cell Dysfunction and Injury in Subarachnoid Hemorrhage.
In the brain, vascular endothelial cells conserve blood viscosity, control blood flow, and form the interface between central nervous system and circulating blood. Clinical outcome after aneurysmal subarachnoid hemorrhage is linked to early brain injury, cerebral vasospasm, and other causes of delayed cerebral ischemia. ⋯ The mechanisms of endothelial cell injury and blood-brain barrier breakdown are critical to the pathway of cerebral injury, and an improved understanding of these mechanisms may lead to novel therapeutic targets. This review provides an update on the current understanding of endothelial cell injury following aneurysmal subarachnoid hemorrhage, including blood-brain barrier dysfunction.