Objective:To study the feasibility of transplantation of normal rat penile corpus cavernosum and major pelvic ganglion (MPG)into the renal subserous region of a Nu /Nu mouse based on allograft technology.Methods:Penile corpus cavernosum and MPG,harvested from Sprague-Dawley (SD)rats under sterile condition,were transplanted underneath the kidney capsule of Nu /Nu mice through the mi-crosurgery instruments and surgery microscope.The histopathologic changes and cellular proliferation in the transplanted penile corpus cavernosum and MPG were then analyzed at the end of 1week and 4 weeks after transplantation.Histological staining and immunohistochemical staining were used to evaluate the main outcome measures.Results:After 1 week,the tissue morphology of the transplanted corpus caverno-sum underneath the kidney capsule of Nu /Nu mice was consistent with normal penile corpus cavernosum, and blood could be observed in the penis cavernous sinus of the graft;after 4 weeks,the mophorlogy of the tranplanted corpus cavernosum near the kidney was consistent with normal penile corpus cavernosum, while fibrosis was noteworthy in the graft away from the kidney,but blood could still be seen in the penis cavernous sinus.After 1 week,the tissue morphology of the transplanted MPG was consistent with normal MPG,multiple islet-like cell clusters could be seen in the transplanted MPG in the renal subserous re-gion,and angiogenesis could be observed near the kidney;after 4 weeks,a network of blood vessels was clearly visible away from the kidney,and islet-like cell clusters were still clearly observed in the trans-planted MPG.In addition,ki67 positive cells were observed in the transplanted penile corpus cavernosum and MPG after 4 weeks of transplantation,which indicated that there was still cell proliferation activity in the grafts.Conclusion:The transplanted corpus cavernosum and MPG underneath the kidney capsule of Nu /Nu mice could survive at least 4 weeks.Moreover,the inner structure of the transplanted corpus ca-vernosum and MPG was close to the normal tissue.The underlining mechanism may be related to the lo-cal microenvironment underneath the kidney capsule of Nu /Nu mice and the neovascularization in the transplanted grafts.

OBJECTIVE: To study mutations in the GJB2 gene in Uyghur patients with nonsyndromic hearing impairment from Xinjiang. METHOD: Forty-three cases with nonsyndromic hearing impairment and 46 adults with normal hearing were performed mutational analysis of the GJB2 coding region by PCR-direct sequencing. RESULT: Six kinds of mutation have been found in the encoding region of hearing impairment group: 380G>A, 109G>A, 235 delC, 233 delC, 7G0>A, 35 delG, of which one 235 delC case is heterozygotes mutation, two 233 delC are homozygotes mutation and two 35 delG are heterozygotes mutation. Six kinds of mutations have been found in the normal hearing group, of which 5 kinds are confirmed common polymorphic mutation. CONCLUSION The GJB2 gene mutation detection rate in the Uyghur deaf population of Xinjiang Province is lower than other province, which has ethnic and regional characteristics.
Adult ; Asian Continental Ancestry Group ; genetics ; China ; epidemiology ; Connexin 26 ; Connexins ; genetics ; DNA Mutational Analysis ; Gene Frequency ; Hearing Loss ; epidemiology ; genetics ; Hearing Loss, Sensorineural ; epidemiology ; genetics ; Homozygote ; Humans ; Mutation

Objective:To explore the pathogenic variants of a family with syndromic deafness by high-throughput sequencing.Methods:The family was from Puyang City, Henan Province, and had four members, including two with syndromic deafness. The proband and his sister had congenital deafness, and their parents had normal phenotypes. The clinical phenotype of the family was characterized using clinical examinations and pedigree analysis. The clinical examinations included imaging examination, audiometry (pure tone audiometry, acoustic immittance, brainstem auditory evoked potential, and otoacoustic emission), vestibular function test, and ophthalmic examination (visual acuity test, visual field test, fundus examination, visual evoked potential, and electroretinogram). Target exome sequencing of 129 known deafness genes and bioinformatics analysis were used to screen suspected pathogenic variants. Sanger sequencing and minigene assay were used to verify and functionally investigate the mutation detected, respectively. According to the standards and guidelines for interpreting genetic variants proposed by the American College of Medical Genetics and Genomics, the variants c.6049G>A and c.8699A>G were classified as pathogenic/likely pathogenic, and the variant c.9856C>G was classified as variants of uncertain significance.Results:The probands and his sister had severe sensorineural hearing loss with decreased binocular vision, night blindness, decreased peripheral visual field sensitivity and partial visual field defect, and normal vestibular function. Both of them had three CDH23 mutations, including CDH23 (NM_022124.5) c.6049G>A (p.Gly2017Ser),c.9856C>G (p.His3286Asp), and c.8699A>G (p. Asp2900Gly), The first two were inherited from the father, and the last one was from the mother. The missense variants c.9856C>G and c.8699A>G were not included in the gnomad database. The missense mutation c.6049G>A was located in the last position of exon 46 and was predicted to affect splicing by bioinformatics software. The minigene experiment showed that the mutation cause exon skipping of exon 46, resulting in an abnormal protein. Conclusions:Compound heterozygous variations of the CDH23 are the leading cause of USH1D in the family. This study confirms that the compound heterozygosity of splicing and missense variants of the CDH23 gene could lead to USH1D.