Effects of vitamin D (VD3) supplementation on the brain mitochondrial function of male rats, in the 6-OHDA-induced model of Parkinson's disease.

Mitochondria dysfunction is an important factor involved in PD pathogenesis. We reported neuroprotective actions of vitamin D (VD3) on a PD model, and now we investigated the VD3 effects on the brain mitochondrial function. We focused on oxygen consumption, respiratory control ratio (RCR), ADP/O ratio, mitochondria swelling, H2O2 production, and SOD activity. Additionally, immunohistochemistry assays for the dopamine system markers (TH and DAT) and mitochondrial markers (VDAC1 and Hsp60) were also carried out in the striata. Young adult male Wistar rats (250 g, 2.5 months age) were anesthetized and subjected to stereotaxic surgery and injection of saline (SO group) or 6-OHDA, into the right striatum. Brain mitochondria were isolated from the groups: sham-operated (SO), 6-OHDA, 6-OHDA pretreated with VD3 for 7, days before the 6-OHDA lesion (6-OHDA+VD3, pre-) or treated with VD3 for 14 days, after the 6-OHDA lesion (6-OHDA+VD3, post-). VD3 prevented decreases in oxygen consumption, RCR, and ADP/O ratio observed after 6-OHDA injury. Noteworthy, a very low (oxygen consumption and RCR) or no improvement (ADP/O) were observed in the 6-OHDA+VD3 post- group. VD3 also prevented the increased mitochondria swelling and H2O2 production and a decrease in SOD activity, respectively, in the 6-OHDA injured mitochondria. Also, VD3 supplementation protected the hemiparkinsonian brain from decreases in TH and DAT expressions and decreased the upregulation of mitochondrial markers, as VDAC 1 and Hsp60. In conclusion, VD3 showed neuroprotective actions on brain mitochondria injured by 6-OHDA and should stimulate translational studies focusing on its use as a therapeutic strategy for the treatment of neurodegenerative diseases as PD.

COVID-19 in age-related neurodegenerative diseases: is there a role for vitamin D3 as a possible therapeutic strategy?

The coronavirus disease (COVID-19), identified in Wuhan, China, on December 2019, was declared a pandemic by the World Health Organization, on March, 2020. Since then, efforts have been gathered to describe its clinical course and to determine preventive measures and treatment strategies. Adults older than 65 years of age are more susceptible to serious clinical symptoms and present higher mortality rates. Angiotensin-converting enzyme 2 (ACE2) is a major receptor for some coronavirus infection, including SARS-COV-2, but is also a crucial determinant in anti-inflammation processes during the renin-angiotensin system (RAS) functioning - converting angiotensin II to angiotensin 1-7. The decline in ACE2 expression that occurs with aging has been associated to the higher morbidity and mortality rates in older adults. These observations highlight the importance of investigating the association between COVID-19 and age-related neurodegenerative disorders, i.e., Parkinson's and Alzheimer's diseases. A possible option to reduce the risk of COVID-19 is vitamin D supplementation, due to its anti-inflammatory and immune-system-modulating effects. It has also been suggested that vitamin D supplementation plays a role in slowing progression of Parkinson and Alzheimer. The present study is a literature review of articles published on the theme COVID-19, Parkinson and Alzheimer's diseases, and the role played by vitamin D. PUBMED, MEDLINE, and EMBASE databases were consulted. Results confirm neurodegenerative and neuroinflammatory effects of COVID-19, aggravated in Parkinson's and Alzheimer's patients, and the important role of vitamin D as a possible therapeutic strategy. Nevertheless, randomized controlled trials and large population studies are still warranted.

Vitamin D (VD3) antioxidative and anti-inflammatory activities: Peripheral and central effects.

Vitamin D (VD3, cholecalciferol), besides its role on bone calcium homeostasis, has also been shown to present anti-inflammatory actions. The objectives of the present work were to further extend these findings, focusing onVD3action mechanisms at the molecular level and onits central and peripheral effects. For that, VD3 antinociceptive and mainly anti-inflammatory activities were evaluated by acute models of nociception (formalin test) and inflammation (carrageenan-induced paw edema), in mice pretreated orally for 7 days with VD3 (0.5 and 1.0 mg/kg). Afterwards, the edematous paws were evaluated by immunohistochemical assays for TNF-alpha. In addition, brains from mice pretreated with VD3, at the same conditions, were harvested for iNOS andCOX-2 immunohistochemical (IHC) assays. The anti-inflammatory effect of VD3 on human neutrophil degranulation was evaluated by the release of myeloperoxidase (MPO) activity, as well as by the reactive oxygen species production. VD3 significantly reduced the licking time in the formalin test, at the second phase (inflammatory pain). VD3 also reduced the edema volume and the number of polymorphonuclear (PMN) cells, as well as the TNF-alpha expression in the edematous paws, compared with the control group. Furthermore, VD3 significantly decreased iNOS and COX-2 expressions in brain areas, such as hippocampus and prefrontal cortex, and inhibited the degranulation of activated neutrophils by the reduction of ROS production and MPO release. Based in these results, VD3 presents anti-inflammatory and antioxidative effects, manifested at peripheral and central sites as showed in the present work for the first time.