OBJECTIVES: To develop a simple and effective method by which spermatids can be isolated from mouse testis. METHODS: Combination of enzymatic digestion was used to prepare suspension of spermatogenic cells from adult mouse testis, and then a modified discontinuous Percoll gradient (15%, 22%, 30%, 40%, 50%, 60%) centrifugation method was introduced to isolate spermatids from the cellular suspension. The content of spermatids in each isolated fraction by Percoll method was determined by morphology (Wright-Giemsa staining) and flow cytometry analysis, and the viability of spermatogenic cells was assessed using Eosin Y exclusion test. RESULTS: More than 97% of the testicular cells remained their viability after enzymatic digestion. After Percoll centrifuged, six fractions were formed. In each isolated fraction, the 22% fraction contained mostly spermatids(mean 86.7%) and cell viability was more than 85.5%. While in the 30% fraction, immature spermatogenic cells were present, and more than 92% of the cells remained their viability. CONCLUSIONS: A large of relatively purified spermatids can be isolated from mouse testis by enzymatic digestion combined discontinuous Percoll gradient centrifugation method.
OBJECTIVES: To develop a simple and effective method by which spermatids can be isolated from mouse testis. METHODS: Combination of enzymatic digestion was used to prepare suspension of spermatogenic cells from adult mouse testis, and then a modified discontinuous Percoll gradient (15%, 22%, 30%, 40%, 50%, 60%) centrifugation method was introduced to isolate spermatids from the cellular suspension. The content of spermatids in each isolated fraction by Percoll method was determined by morphology (Wright-Giemsa staining) and flow cytometry analysis, and the viability of spermatogenic cells was assessed using Eosin Y exclusion test. RESULTS: More than 97% of the testicular cells remained their viability after enzymatic digestion. After Percoll centrifuged, six fractions were formed. In each isolated fraction, the 22% fraction contained mostly spermatids(mean 86.7%) and cell viability was more than 85.5%. While in the 30% fraction, immature spermatogenic cells were present, and more than 92% of the cells remained their viability. CONCLUSIONS: A large of relatively purified spermatids can be isolated from mouse testis by enzymatic digestion combined discontinuous Percoll gradient centrifugation method.
Authors: Mindong Ren; Yang Xu; Hediye Erdjument-Bromage; Alec Donelian; Colin K L Phoon; Naohiro Terada; Douglas Strathdee; Thomas A Neubert; Michael Schlame Journal: J Cell Biol Date: 2019-03-26 Impact factor: 10.539