Post-traumatic stress disorder (PTSD) is a psychiatric condition resulting from exposure to a traumatic event. It is characterized by several debilitating symptoms including re-experiencing the past trauma, avoidance behavior, increased fear, and hyperarousal. Key roles in the neuropathology of PTSD and its symptomatology have been attributed to the hippocampus and amygdala. These regions are involved in explicit memory processes and context encoding during fear conditioning. The aim of our study was to investigate whether PTSD is capable of altering the morphology, density and expression of glial fibrillary acidic protein (GFAP) in astrocytes from the CA1 region of the hippocampus and the medial amygdala and correlate the data obtained with the orientation index of the polarity of astrocytes. Thirty male rats were divided in two groups: control (n = 15) and PTSD (n = 15). The inescapable shock protocol, in which the animals are exposed to a single episode of footshock, was used to induce PTSD. Our results show that, in the hippocampus, PTSD is capable of decreasing the density of GFAP+ astrocytes as well as altering astrocytic morphology, as shown by the reductions observed in the total number of primary processes, in the number of primary processes in the lateral quadrants, and the degree of branching in the lateral quadrants. The analysis of the orientation index indicates that PTSD alters the polarity of hippocampal astrocytes. No alterations were observed in the amygdala astrocytes. Therefore, this study demonstrates notable changes in hippocampal astrocytes, supporting the concept that these cells play an important role in PTSD symptomatology.
Studies have suggested that neuronal loss in Parkinson's disease (PD) could be related to the pacemaker activity of the substantia nigra pars compacta generated by L-type Ca(v) 1.3 calcium channels, which progressively substitute voltage-dependent sodium channels in this region during aging. Besides this mechanism, which leads to increases in intracellular calcium, other factors are also known to play a role in dopaminergic cell death due to overproduction of reactive oxygen species. Thus, dihydropyridines, a class of calcium channel blockers, and resveratrol, a polyphenol that presents antioxidant properties, may represent therapeutic alternatives for the prevention of PD. In the present study, we tested the effects of the dihydropyridines, isradipine, nifedipine, and nimodipine and of resveratrol upon locomotor behavior in Drosophila melanogaster. As previously described, paraquat induced parkinsonian-like motor deficits. Moreover, none of the drugs tested were able to prevent the motor deficits produced by paraquat. Additionally, isradipine, nifedipine, resveratrol, and ethanol (vehicle), when used in isolation, induced motor deficits in flies. This study is the first demonstration that dyhidropyridines and resveratrol are unable to reverse the locomotor impairments induced by paraquat in Drosophila melanogaster.
Degenerative changes in the temporomandibular joint (TMJ) associated with aging can affect mandibular shape and reduce growth potential when stimulated by functional appliance therapy. This study was designed to evaluate the morphological changes in the mandibles of male mice associated with aging and biomechanical stimulus. Every 3 days over the course of 1 month, the lower incisors were trimmed by 1 mm to induce mandibular advancement (MA) when the animal was feeding. The left mandibles of the 23 experimental and 27 control animals were subsequently dissected, and digital images were obtained to analyze nine linear/angular measurements. Because mandibular morphology depends on the maintenance of condylar cartilage, the surfaces of the condylar cartilage and the ascending ramus of the mandible were also analyzed by scanning electron microscopy (SEM). The linear measurements of the mandible showed changes according to age in the control group and a growth response in the mandibular condyle in 7-and 15-month-old mice after MA. Moreover, SEM analysis revealed depressions in the anterior region of the condylar cartilage and inclined vascular grooves in the ascending ramus in the 7-and 15-month-old experimental mice. Although the growth potential is reduced in mice after 6 months of age, the results showed that continuous growth of the mandible occurs after maturation, except in the condyle, and that biomechanical stimulus of the TMJ of male mice leads to condylar growth. These results suggest that mature and old individuals can favorably respond to maxillary functional orthopedic therapy.
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