Mutations in the Pick1 gene cause globozoospermia, a male infertility disorder, in both mice and humans. PICK1 is crucial for vesicle trafficking, and its deficiency in sperm cells leads to abnormal vesicle trafficking from the Golgi to the acrosome. This eventually disrupts acrosome formation and leads to male infertility. Here, we identified ICA1L, which has sequence similarities to ICA69 (also known as ICA1), as a new BAR-domain binding partner of PICK1. ICA1L is expressed in testes and brain, and is the major binding partner for PICK1 in testes. ICA1L and PICK1 are highly expressed in spermatids and trafficked together at different stages of spermiogenesis. ICA1L-knockout mice were generated by CRISPRCas technology. PICK1 expression was reduced by 80% in the testes of male mice lacking ICA1L. Sperm from ICA1L-knockout mice had abnormalities in the acrosome, nucleus and mitochondrial sheath formation. Both total and mobile sperm numbers were reduced, and about half of the remaining sperm had the characteristics of globozoospermia. These defects ultimately resulted in reduced fertility of male ICA1L-knockout mice, and ICA69/ICA1L-double knockout male mice were sterile.
Rodent transgenesis and human-assisted reproductive programs involve multistep handling of preimplantation embryos. The efficacy of production and quality of results from conventionally scheduled programs are limited by temporal constraints other than the quality and quantities of embryos per se. The emergence of vitrification, a water ice-free cryopreservation technique, as a reliable way to arrest further growth of preimplantation embryos, provides an option to eliminate the time constraint. In this article, current and potential applications of cryopreservation to facilitate laboratory animal experiments, colony management, and human-assisted reproductive programs are reviewed. Carrier devices developed for vitrification in the last two decades are compared with an emphasis on their physical properties that infer cooling rate of samples and sterility assurance. Biological impacts of improved cryopreservation on preimplantation embryos are also discussed.
Resorbable bioceramics are attractive for medical applications such as bone substitution. Biochemical analysis on cells cultured on these biomaterials is vital to predict the impact of the materials in vivo and RNA extraction is an essential step in gene expression study using RT-qPCR. In this study, we describe simple modifications to the TRIzol ® RNA extraction protocol widely used in biology and these allow high-yield extraction of RNA from cells on resorbable calcium phosphates. Without the modifications, RNA is trapped in the co-precipitated calcium compounds, rendering TRIzol ® extraction method infeasible. Among the modifications, the use of extra TRIzol ® to dilute the lysate before the RNA precipitation step is critical for extraction of RNA from porous -tricalcium phosphate (-TCP) discs. We also investigate the rationale behind the undesirable precipitation so as to provide clues about the modifications required for other resorbable materials with high application potential in bone tissue engineering.
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