Up- and Downregulated Genes after Long-Term Muscle Atrophy Induced by Denervation in Mice Detected Using RNA-Seq.

Skeletal muscle atrophy occurs rapidly as a result of inactivity. Although there are many reports on changes in gene expression during the early phase of muscle atrophy, the patterns of up-and downregulated gene expression after long-term and equilibrated muscle atrophy are poorly understood. In this study, we comprehensively examined the changes in gene expression in long-term denervated mouse muscles using RNA-Seq. The murine right sciatic nerve was denervated, and the mice were housed for five weeks. The cross-sectional areas of the hind limb muscles were measured using an X-ray CT system 35 days after denervation. After 28 d of denervation, the cross-sectional area of the muscle decreased to approximately 65% of that of the intact left muscle and reached a plateau. Gene expression in the soleus and extensor digitorum longus (EDL) muscles on the 36th day was analyzed using RNA-Seq and validated using RT-qPCR. RNA-Seq analysis revealed that three genes-Adora1, E230016M11Rik, and Gm10718-were upregulated and one gene-Gm20515-was downregulated in the soleus muscle; additionally, four genes-Adora1, E230016M11Rik, Pigh, and Gm15557-were upregulated and one gene-Fzd7-was downregulated in the EDL muscle (FDR < 0.05). Among these genes, E230016M11Rik, one of the long non-coding RNAs, was significantly upregulated in both the muscles. These findings indicate that E230016M11Rik could be a candidate gene for the maintenance of atrophied skeletal muscle size and an atrophic state.

Synthesis of Ascorbic Acid Derivatives with Different Types of C8 Straight Acyl Chain and Their Neurite Outgrowth-Enhancing Activities.

We previously reported that 2-O-α-D-glucopyranosyl-6-O-octanoyl-L-ascorbic acid, having a C8 straight acyl chain, at a concentration of 100 µM remarkably enhanced nerve growth factor (NGF)-induced neurite outgrowth in PC12 cells after being metabolized to L-ascorbic acid (AA) as an active form by esterase and α-glucosidase. In this study, to examine the structure-activity relationship of 6-O-substituted AA derivatives with a C8 straight acyl chain for neurite outgrowth-promoting activity, we synthesized AA derivatives 1-4 and compared their activities for promoting NGF-induced neurite outgrowth in PC12 cells. AA derivatives 1-4 showed neurite outgrowth-enhancing activity at 100 µM, while AA derivative 2 also showed the enhancing activity at 3 µM. Furthermore, AA derivative 2 as well as AA enhanced NGF-induced neurite outgrowth after being incorporated into PC12 cells via sodium-dependent vitamin C transporter as an anion transporter. The results suggested that AA derivative 2 has neurite outgrowth-enhancing activity in its intact form at a low concentration (3 µM) and that AA derivatives 1-4 showed their activities in the form of AA, a metabolite of these derivatives, at a higher concentration (100 µM).