Journal
MOLECULAR NEUROBIOLOGY
Volume 60, Issue 2, Pages 576-595Publisher
SPRINGER
DOI: 10.1007/s12035-022-03087-9
Keywords
Hypoxia; Ischemia; Perinatal asphyxia; Stroke; PPAR gamma; Autophagy
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Amorfrutin B is identified as a selective modulator of the PPAR gamma receptor with neuroprotective properties against hypoxic and ischemic damage in brain neurons. The delayed post-treatment with amorfrutin B prevents neuronal apoptosis by preserving mitochondrial function, inhibiting heterochromatin foci formation, and modulating the expression of specific genes and proteins. The protective mechanisms of amorfrutin B involve the inhibition of autophagy and the regulation of apoptosis-focused and autophagy-related miRNAs. Amorfrutin B shows promise as an anti-stroke therapeutic with a wide treatment window.
Amorfrutin B is a selective modulator of the PPAR gamma receptor, which has recently been identified as an effective neuroprotective compound that protects brain neurons from hypoxic and ischemic damage. Our study demonstrated for the first time that a 6-h delayed post-treatment with amorfrutin B prevented hypoxia/ischemia-induced neuronal apoptosis in terms of the loss of mitochondrial membrane potential, heterochromatin foci formation, and expression of specific genes and proteins. The expression of all studied apoptosis-related factors was decreased in response to amorfrutin B, both during hypoxia and ischemia, except for the expression of anti-apoptotic BCL2, which was increased. After post-treatment with amorfrutin B, the methylation rate of the pro-apoptotic Bax gene was inversely correlated with the protein level, which explained the decrease in the BAX/BCL2 ratio as a result of Bax hypermethylation. The mechanisms of the protective action of amorfrutin B also involved the inhibition of autophagy, as evidenced by diminished autophagolysosome formation and the loss of neuroprotective properties of amorfrutin B after the silencing of Becn1 and/or Atg7. Although post-treatment with amorfrutin B reduced the expression levels of Becn1, Nup62, and Ambra1 during hypoxia, it stimulated Atg5 and the protein levels of MAP1LC3B and AMBRA1 during ischemia, supporting the ambiguous role of autophagy in the development of brain pathologies. Furthermore, amorfrutin B affected the expression levels of apoptosis-focused and autophagy-related miRNAs, and many of these miRNAs were oppositely regulated by amorfrutin B and hypoxia/ischemia. The results strongly support the position of amorfrutin B among the most promising anti-stroke and wide-window therapeutics.
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