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FKBP51 modulates hippocampal size and function in post-translational regulation of Parkin
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FKBP51 modulates hippocampal size and function in post-translational regulation of Parkin
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Journal Article
FKBP51 modulates hippocampal size and function in post-translational regulation of Parkin
2022
Overview
FK506-binding protein 51 (encoded by
Fkpb51
, also known as
Fkbp5
) has been associated with stress-related mental illness. To investigate its function, we studied the morphological consequences of
Fkbp51
deletion. Artificial Intelligence-assisted morphological analysis revealed that male
Fkbp51
knock-out (KO) mice possess more elongated dentate gyrus (DG) but shorter hippocampal height in coronal sections when compared to WT. Primary cultured
Fkbp51
KO hippocampal neurons were shown to exhibit larger dendritic outgrowth than wild-type (WT) controls and pharmacological manipulation experiments suggest that this may occur through the regulation of microtubule-associated protein. Both in vitro primary culture and in vivo labeling support a role for FKBP51 in the regulation of microtubule-associated protein expression. Furthermore,
Fkbp51
KO hippocampi exhibited decreases in βIII-tubulin, MAP2, and Tau protein levels, but a greater than 2.5-fold increase in Parkin protein. Overexpression and knock-down FKBP51 demonstrated that FKBP51 negatively regulates Parkin in a dose-dependent and ubiquitin-mediated manner. These results indicate a potential novel post-translational regulatory mechanism of Parkin by FKBP51 and the significance of their interaction on disease onset.
Graphical abstract
KO has more flattened hippocampus using AI-assisted measurement
Both pyramidal cell layer (PCL) of CA and granular cell layer (GCL) of DG distinguishable as two layers: deep cell layer and superficial layer. Distinct MAP2 expression between deep and superficial layer between KO and WT,
Higher Parkin expression in KO brain
Mechanism of FKBP51 inhibition resulting in Parkin, MAP2, Tau, and Tubulin expression differences between KO and WT mice, and resulting neurite outgrowth differences.
Publisher
Springer International Publishing,Springer Nature B.V
Subject
/ Biomedical and Life Sciences
/ Hippocampus - anatomy & histology
/ Kinases
/ males
/ Mice
/ Microtubule-Associated Proteins - genetics
/ Microtubule-Associated Proteins - metabolism
/ neurites
/ Original
/ Proteins
/ Regulatory mechanisms (biology)
/ RNA, Small Interfering - metabolism
/ Tacrolimus Binding Proteins - antagonists & inhibitors
/ Tacrolimus Binding Proteins - deficiency
/ Tacrolimus Binding Proteins - genetics
/ Tacrolimus Binding Proteins - metabolism
/ Tubulin
/ Ubiquitin-Protein Ligases - genetics
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