Oral Administration of a specific p300/CBP Lysine Acetyltransferase Activator Induces Synaptic Plasticity and Repairing Spinal Cord Injury

Abstract

TTK21 is a small molecule activator of p300/CBP acetyltransferase activity, which upon conjugation with glucose-derived carbon nanosphere (CSP) can efficiently cross the blood-brain barrier and activate histone acetylation in the brain. Its role in adult neurogenesis and retention of long-term spatial memory upon intraperitoneal (IP) administration is well established. In this study, we have successfully demonstrated that CSP-TTK21 can be effectively administered via oral gavage. Using a combination of molecular biology, microscopy, and electrophysiological techniques, we systematically investigated the comparative efficacy of oral administration of CSP and CSP-TTK21 in wild-type mice, evaluating their functional effects in comparison to intraperitoneal (IP) administration. Our findings indicate that CSP-TTK21, when administered orally, induces long-term potentiation in the hippocampus without significantly altering basal synaptic transmission, a response comparable to that achieved through IP injection. Remarkably, in a spinal cord injury model, oral administration of CSP-TTK21 exhibits equivalent efficacy to IP administration. Furthermore, our research demonstrates that oral delivery of CSP-TTK21 leads to improvements in motor functions, histone acetylation dynamics, and increased expression of regeneration associated genes (RAGs) in a spinal injury rat model, mirroring the effectiveness of IP administration. Collectively, these results underscore the potential utility of CSP as an oral drug delivery system, particularly for targeting the neural system.