Browsing by Subject "Isoprenylation"

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    A New Mechanism of Serotonin Transporter Regulation by Simvastatin and the Isoprenylation Pathway
    (2021-07) Deveau, Carmen Marie; Yamamoto, Bryan K.; Sheets, Patrick L.; Sullivan, William J., Jr.; Atwood, Brady K.; Brustovetsky, Nickolay
    The serotonergic system in the brain is necessary for neurophysiological processes related to mood, sleep, and cognitive regulation. This system is primarily regulated through the transport of extracellular serotonin (5-HT) into neuron terminals by the serotonin transporter (SERT). The activity of SERT is thought to be modulated in part by cholesterol and lipid rich microdomains within the plasma membrane where SERT localizes. However, experiments related to the mechanism of membrane cholesterol on SERT function in the brain has yielded conflicting results and no studies have examined the contribution of cholesterol biosynthetic intermediates in regulating SERT function. To address this knowledge gap, this dissertation examined the neuropharmacological effects of the highly prescribed cholesterol-lowering statin drugs on SERT-dependent 5- HT uptake into neurons. Unexpectedly, statin treatment increased SERT-dependent 5-HT uptake in a neuron cell model, and increased in vivo 5-HT content in synaptosomes. The mechanistic findings demonstrated that (1) statins enhanced activity of SERT rather than altered distribution at the membrane, (2) statins increased 5-HT uptake in a manner that is independent of cholesterol per se but is mediated in part by the cholesterol biosynthetic intermediates of the isoprenylation pathway, namely farnesyl pyrophosphate (FPP) and geranylgeranyl pyrophosphate (GGPP), (3) direct inhibition of the isoprenylation pathway through inhibition of GGPP enzyme geranylgeranyl transferase (GGT) also increased 5-HT uptake in a SERT-dependent manner, and (4) increased 5-HT uptake by statins or GGT inhibition was dependent on Ca2+/calmodulin-dependent protein kinase (CAMKII). Our results provide a novel role for lipid signaling in regulating SERT and a newly identified function of the isoprenylation pathway in the brain. These results also provide a possible explanation for the adverse neurological effects associated with the widely prescribed statin drugs.
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    Serotonin Transporter Regulation by Cholesterol-Independent Lipid Signaling
    (Elsevier, 2021) Deveau, Carmen M.; Rodriguez, Eric; Schroering, Allen; Yamamoto, Bryan K.; Pharmacology and Toxicology, School of Medicine
    Serotonin neurotransmission is largely governed by the regulation of the serotonin transporter (SERT). SERT is modulated in part by cholesterol, but the role of cholesterol and lipid signaling intermediates in regulating SERT are unknown. Serotonergic neurons were treated with statins to decrease cholesterol and lipid signaling intermediates. Contrary to reported decreases in 5-HT uptake after cholesterol depletion, biochemical and imaging methods both showed that statins increased 5-HT uptake in a fluoxetine-dependent manner. Simvastatin lowered the Km without changing Vmax for 5-HT or SERT distribution to the plasma membrane. Cholesterol repletion did not block enhanced 5-HT uptake by simvastatin but the enhanced uptake was blocked by lipid isoprenylation intermediates farnesyl pyrophosphate and geranylgeranyl pyrophosphate. Blockade of geranylgeranylation alone without statins also enhanced 5-HT uptake. Overall, this study revealed a specific neuronal effect of statin drugs and identified lipid signaling through geranylgeranylation within the isoprenylation pathway regulates SERT in a cholesterol-independent manner.