BACE1 inhibition in injured peripheral nerve and a neuropathy mouse models
Johns Hopkins University, Baltimore MD
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Abstract
DESCRIPTION (provided by applicant): Peripheral nerve damage and diseases are common health problems that often result in long-term functional deficits. Peripheral axons can regenerate and reinnervate target tissue following nerve injury or disease in young rodent animals. However, human axonal regeneration is very slow and both denervated Schwann cells, which provide a permissive micro-environment for regeneration, and target tissues are at risk for undergoing atrophy and death, precluding functional recover. This situation underscores the critical need for agents that can speed up axonal regeneration to restore function. A prime candidate for enhancing axonal regeneration is inhibition of Beta -Amyloid Cleaving Enzyme (BACE1). Recently, we show that genetic deletion and pharmacological inhibition of BACE1 markedly accelerate axonal regeneration in the injured peripheral nerves of mice. However, it is unclear how inhibition of BACE1 improves nerve regeneration. We postulate that accelerated nerve regeneration is due to blockade of BACE1 cleavage of two different BACE1 substrates. The two proposed substrates are the amyloid precursor protein (APP) in axons and tumor necrosis factor receptor 1 (TNFR1) on macrophages, which infiltrate injured nerves and clear the inhibitory myelin debris. We will systematically explore genetic manipulations of these two substrates in regard to accelerated axonal regeneration and rapid myelin debris removal seen in BACE1 KO mice. Equally importantly, we propose critical evaluations of a new and very attractive therapeutic approach (e.g. pharmacological inhibition of BACE1) to accelerate nerve regeneration in preclinical rodent models. As experimental models, we will employ peripheral nerve injury and chemotherapy-induced peripheral neuropathy in mice. To evaluate BACE1 inhibitors as a therapy for nerve damage and chemotherapy-induced peripheral neuropathy, we plan to take combined approaches of morphological, electrophysiological and behavioral studies. The proposed studies are highly relevant because faster rate of outgrowth associated with BACE1 inhibition could be useful in speeding nerve regeneration in human conditions.
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