Long noncoding RNA H19 regulates degeneration and regeneration of injured peripheral nerves.

Our previous studies have shown that long noncoding RNA (lncRNA) H19 is upregulated in injured rat sciatic nerve during the process of Wallerian degeneration, and that it promotes the migration of Schwann cells and slows down the growth of dorsal root ganglion axons. However, the mechanism by which lncRNA H19 regulates neural repair and regeneration after peripheral nerve injury remains unclear. In this study, we established a Sprague-Dawley rat model of sciatic nerve transection injury. We performed in situ hybridization and found that at 4-7 days after sciatic nerve injury, lncRNA H19 was highly expressed. At 14 days before injury, adeno-associated virus was intrathecally injected into the L4-L5 foramina to disrupt or overexpress lncRNA H19. After overexpression of lncRNA H19, the growth of newly formed axons from the sciatic nerve was inhibited, whereas myelination was enhanced. Then, we performed gait analysis and thermal pain analysis to evaluate rat behavior. We found that lncRNA H19 overexpression delayed the recovery of rat behavior function, whereas interfering with lncRNA H19 expression improved functional recovery. Finally, we examined the expression of lncRNA H19 downstream target SEMA6D, and found that after lncRNA H19 overexpression, the SEMA6D protein level was increased. These findings suggest that lncRNA H19 regulates peripheral nerve degeneration and regeneration through activating SEMA6D in injured nerves. This provides a new clue to understand the role of lncRNA H19 in peripheral nerve degeneration and regeneration.

The eggshell-matrix protein gene OC-17 is functionally lost in the viviparous Chinese crocodile lizard.

Thickness reduction or loss of the calcareous eggshell is one of major phenotypic changes in the transition from oviparity to viviparity. Whether the reduction of eggshells in viviparous squamates is associated with specific gene losses is unknown. Taking advantage of a newly generated high-quality genome of the viviparous Chinese crocodile lizard (Shinisaurus crocodilurus), we found that ovocleidin-17 gene (OC-17), which encodes an eggshell matrix protein that is essential for calcium deposition in eggshells, is not intact in the crocodile lizard genome. Only OC-17 transcript fragments were found in the oviduct transcriptome, and no OC-17 peptides were identified in the eggshell proteome of crocodile lizards. In contrast, OC-17 was present in the eggshells of the oviparous Mongolia racerunner (Eremias argus). Although the loss of OC-17 is not common in viviparous species, viviparous squamates show fewer intact eggshell-specific proteins than oviparous squamates. Our study implies that functional loss of eggshell-matrix protein genes may be involved in the reduction of eggshells during the transition from oviparity to viviparity in the crocodile lizard.