Abstract
Insulin signaling pathways in the brain regulate food uptake and memory and learning. Insulin and protein kinase C (PKC) pathways are integrated and function closely together. PKC activation in the brain is essential for learning and neuronal repair. Intranasal delivery of insulin to the central nervous system (CNS) has been shown to improve memory, reduce cerebral atrophy, and reverse neurodegeneration. However, the neuronal molecular mechanisms of these effects have not been studied in depth. PKCδ plays a central role in cell survival. Its splice variants, PKCδI and PKCδII, are switches that determine cell survival and fate. PKCδI promotes apoptosis, whereas PKCδII promotes survival. Here, we demonstrate that insulin promotes alternative splicing of PKCδII isoform in HT22 cells. The expression of PKCδI splice variant remains unchanged. Insulin increases PKCδII alternative splicing via the PI3K pathway. We further demonstrate that Akt kinase mediates phosphorylation of the splicing factor SC35 to promote PKCδII alternative splicing. Using overexpression and knockdown assays, we demonstrate that insulin increases expression of Bcl2 and bcl-xL via PKCδII. We demonstrate increased cell proliferation and increased BrdU incorporation in insulin-treated cells as well as in HT22 cells overexpressing PKCδII. Finally, we demonstrate in vivo that intranasal insulin promotes cognitive function in mice with concomitant increases in PKCδII expression in the hippocampus. This is the first report of insulin, generally considered a growth or metabolic hormone, regulating the alternative isoform expression of a key signaling kinase in neuronal cells such that it results in increased neuronal survival.
Highlights
Insulin Increases protein kinase C (PKC)␦II Expression—Because the hippocampus is critical for memory and cognition, we used the immortalized mouse hippocampal cell line HT22 for our studies
The lowest dose (10 nM) of insulin was used. This is the first report demonstrating that insulin regulates PKC␦ pre-mRNA alternative splicing in neuronal cells
Neuronal insulin signaling is critical in mediating learning and memory and functions as a neuroprotectant in the central nervous system (CNS)
Summary
Spliced PKC␦II is a pro-survival protein. Results: Insulin regulates alternative splicing of PKC␦II pre-mRNA, which promotes Bcl and bcl-xL expression. We demonstrate that insulin promotes alternative splicing of PKC␦II isoform in HT22 cells. We demonstrate in vivo that intranasal insulin promotes cognitive function in mice with concomitant increases in PKC␦II expression in the hippocampus. This is the first report of insulin, generally considered a growth or metabolic hormone, regulating the alternative isoform expression of a key signaling kinase in neuronal cells such that it results in increased neuronal survival. Insulin signaling in the CNS is important in learning, memory, and synaptogenesis and activates survival pathways in neurons. Our previous work demonstrated that the mouse splice variants, PKC␦I and PKC␦II, are a switch that determines cell survival and fate. We demonstrate that PKC␦II is upstream of the Bcl2-mediated survival cascade
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