Gene suppression of mouse testis in vivo using small interfering RNA derived from plasmid vectors

RNA Interference as a Method of Gene Knockdown in Cultured Spermatogonia

Maintenance and self-renewal of the spermatogonial stem cell (SSC) population in the testis are dictated by the expression of a unique suite of genes. In manipulating gene expression through loss-of-function approaches, we can identify important regulatory mechanisms that dictate spermatogonial fate decisions. One such approach is RNA interference (RNAi), which uses natural cellular responses to small interfering RNAs to decrease levels of a targeted transcript. RNAi is performed in primary cultures of undifferentiated spermatogonia, and can be paired with techniques such as spermatogonial transplantation to assess the functional consequences of downregulated expression of the target gene on stem cell maintenance. This approach provides an alternative or complementary strategy to the generation of knockout mouse lines / cell lines. Here, we describe the methodology of RNAi in undifferentiated spermatogonia, and outline its inherent advantages and disadvantages over other technologies in the study of gene regulation in these cells.

Transgenesis and active immunization mediated reduction of sperm associated antigen 11A mRNA and protein levels affect fecundity in the rat

Spermatozoa acquire motility and fertilizing ability during their transit through the epididymis. A wide variety of proteins secreted into the epididymal lumen are added on to the sperm surface to allow morphological and molecular changes involved in sperm maturation. Proteins of the Sperm Associated Antigen 11 (SPAG11) family are known to be localized on the sperm surface. The rat SPAG11A protein was implicated in sperm maturation during epididymal transit in vitro. However, systematic analyses on the significance of SPAG11A in fertility and sperm function is not yet reported in vivo. In this study, using testicular electroporation, we generated transgenic rats that express shRNA to ablate endogenous Spag11a mRNA. Genotyping revealed the integration of the plasmid that expresses shRNA against Spag11a mRNA. Significant decrease in the mRNA levels of Spag11a and its encoded protein was observed in the caput epididymis of transgenic rats. We also generated an active immunization rat model to ablate endogenous SPAG11A protein by administering recombinant SPAG11A protein. Immunized rats had a high antibody titer in the serum and the tissue fluids of caput, cauda and testis. In both these model systems, the litter size and sperm count was significantly reduced. However, spermatozoa obtained from the transgenic or immunized rats underwent capacitation and acrosome reaction and the associated calcium release. Results of this study indicate the role of SPAG11A in fecundity and sperm production and not in sperm function, especially capacitation and acrosome reaction.