Myoinositol Attenuates the Cell Loss and Biochemical Changes Induced by Kainic Acid Status Epilepticus

Lordkipanidze, Tamar და Tsverava, Lia და Lepsveridze, Eka და Nozadze, Maia და Kikvidze, Marine და Solomonia, Revaz (2016) Myoinositol Attenuates the Cell Loss and Biochemical Changes Induced by Kainic Acid Status Epilepticus. BioMed Research International., 2016.

[img] ტექსტი
Pages from 2794096.pdf

Download (74kB)
[img] ტექსტი
index.html - გამოქვეყნებული ვერსია
Restricted to მხოლოდ რეგისტრირებული მომხმარებლებისთვის

Download (13kB) | ასლის შეკვეთა
ოფიციალური URL: http://dx.doi.org/10.1155/2016/2794096

რეზიუმე

Identification of compounds preventing or modifying the biochemical changes that underlie the epileptogenesis process and understanding the mechanism of their action are of great importance. We have previously shown that myoinositol (MI) daily treatment for 28 days prevents certain biochemical changes that are triggered by kainic acid (KA) induced status epilepticus (SE). However in these studies we have not detected any effects of MI on the first day after SE. In the present study we broadened our research and focused on other molecular and morphological changes at the early stages of SE induced by KA and effects of MI treatment on these changes. The increase in the amount of voltage-dependent anionic channel-1 (VDAC-1), cofilin, and caspase-3 activity was observed in the hippocampus of KA treated rats. Administration of MI 4 hours later after KA treatment abolishes these changes, whereas diazepam treatment by the same time schedule has no significant influence. The number of neuronal cells in CA1 and CA3 subfields of hippocampus is decreased after KA induced SE and MI posttreatment significantly attenuates this reduction. No significant changes are observed in the neocortex. Obtained results indicate that MI posttreatment after KA induced SE could successfully target the biochemical processes involved in apoptosis, reduces cell loss, and can be successfully used in the future for translational research.

ობიექტის ტიპი: სტატია
თემატიკა: Q Science > QO Biology
ქვეგანყოფილება: Institutes > Institute of Chemical Biology
განმათავსებელი მომხმარებელი: Professor Tamar Lordkipanidze
განთავსების თარიღი: 29 აგვისტო 2016 09:16
ბოლო ცვლილება: 29 აგვისტო 2016 09:16
URI: http://eprints.iliauni.edu.ge/id/eprint/5109

Actions (login required)

ობიექტის ნახვა ობიექტის ნახვა