Title:The Hippocampal Autophagic Machinery is Depressed in the Absence of the Circadian Clock Protein PER1 that may Lead to Vulnerability During Cerebral Ischemia
Volume: 14
Issue: 3
Author(s): Abdelhaq Rami*, Julia Fekadu and Oliver Rawashdeh
Affiliation:
- Institut für Anatomie III, Theodor- Stern-Kai 7, 60590 Frankfurt/Main,Germany
Keywords:
Per-1 clock gene, autophagy, hippocampal neurons, neuronal vulnerability, rapamycin, cerebral ischemia.
Abstract: Background: Autophagy is an intracellular bulk self-degrading process in which
cytoplasmic contents of abnormal proteins and excess or damaged organelles are sequestered into
autophagosomes, and degraded upon fusion with lysosomes. Although autophagy is generally
considered to be pro-survival, it also functions in cell death processes. We recently reported on the
hippocampal, higher vulnerability to cerebral ischemia in mice lacking the circadian clock protein
PERIOD1 (PER1), a phenomenon we found to be linked to a PER1-dependent modulation of the
expression patterns of apoptotic/autophagic markers.
Methods: To exclude the contribution of vascular or glial factors to the innate vulnerability of Per1
knockout-mice (Per1
−/−-mice) to cerebral ischemia in vivo, we compared the autophagic machinery
between primary hippocampal cultures from wild-type (WT)- and Per1
−/−-mice, using the lipophilic
macrolide antibiotic, Rapamycin to induce autophagy.
Results: Development of autophagy in WT cells involved an increased LC3-II-to-LC3-I ratio
(microtubule-associated protein 1 light chain 3) and an overall increase in the level of LC3-II. In
addition, immunostaining of LC3 in WT cells revealed the typical transformation of LC3 localization
from a diffused staining to a dot- and ring-like pattern. In contrast, Per1
−/−-hippocampal cells
were resistant to Rapamycin induced alterations of autophagy hallmarks.
Conclusion: Our in vitro data suggests that basal activity of autophagy seems to be modulated by
PER1, and confirms the in vivo data by showing that the autophagic machinery is depressed in
Per1
−/−-hippocampal neurons.The implication of both autophagy and circadian dysfunction in the
pathogenesis of cerebral ischemia suggests that a functional connection between the two processes
may exist.