A testis-specific serine protease,Prss41/Tessp-1, is necessary for the progression of meiosis during murine in vitro spermatogenesis

The function of protease during male meiosis has not been well studied. We previously cloned and characterized four testis-specific serine proteases in the mouse testis. One of the proteases, Prss41/Tessp-1, was expressed in the germ and Sertoli cell. This time, to examine the involvement of Prss41/Tessp-1 in spermatogenesis, we conducted the organ culture of testis fragments in the presence of the anti-Prss41/Tessp-1 antibody. Because in the Sertoli cell, the Prss41/Tessp-1 protein was mostly associated with the membrane of intracellular organelles by glycosylphosphatidylinositol, the antibody was expected to affect Prss41/Tessp-1 at the plasma membrane of spermatogonia. By adding the antibody, the number of germ cells was decreased in some seminiferous tubules. The marker genes expression strongly suggested that meiosis was arrested at spermatogonia, and the number of apoptotic germ cells increased by terminal deoxynucleotidyl transferase dUTP nick end labeling assay. These data indicated that Prss41/Tessp-1 was necessary for the progression of meiosis at the stage of spermatogonia during in vitro spermatogenesis. Together with our previous study, the current results suggest that the Prss/Tessp proteases are important for the progression of meiosis at each stage.     

Differentiation of cytoplasmic and meiotic spindle assembly MCAK functions by Aurora B-dependent phosphorylation

The KinI kinesin MCAK is a microtubule depolymerase important for governing spindle microtubule dynamics during chromosome segregation. The dynamic nature of spindle assembly and chromosome-microtubule interactions suggest that mechanisms must exist that modulate the activity of MCAK, both spatially and temporally. In Xenopus extracts, MCAK associates with and is stimulated by the inner centromere protein ICIS. The inner centromere kinase Aurora B also interacts with ICIS and MCAK raising the possibility that Aurora B may regulate MCAK activity as well. Herein, we demonstrate that recombinant Aurora B-INCENP inhibits Xenopus MCAK activity in vitro in a phosphorylation-dependent manner. Substituting endogenous MCAK in Xenopus extracts with the alanine mutant XMCAK-4A, which is resistant to inhibition by Aurora B-INCENP, led to assembly of mono-astral and monopolar structures instead of bipolar spindles. The size of these structures and extent of tubulin polymerization in XMCAK-4A extracts indicate that XM-CAK-4A is not defective for microtubule dynamics regulation throughout the cytoplasm. We further demonstrate that the ability of XMCAK-4A to localize to inner centromeres is abolished. Our results show that MCAK regulation of cytoplasmic and spindle-associated microtubules can be differentiated by Aurora B-dependent phosphorylation, and they further demonstrate that this regulation is required for bipolar meiotic spindle assembly.     

Synthesis of 2,3-di-O-phytanyl-1-O-(α-D-glucopyranosyl)-sn-glycerol derivatives,analogues of polar lipids isolated from a halophilic bacterial strain

2,3-Di-O-phytanyl-1-O-glucopyranosylglycerol and polar derivatives of its 6-glucose moiety have been synthesized. The target molecule contains the diphytanyl-sn-glycerol moiety which is -linked to glucose. The key step in its synthesis involves the coupling of phytanyl bromide and isopropylidene threitol. We also demonstrated that the 6-hydroxyl group of glycolipids can be functionalized without protection of the sugar moiety.     

Isoelectric focusing of the inbred mouse antibody to bacterial alpha-amylase

In the IgG antibody response to bacterial alpha-amylase (B alpha A) assayed by the enzymatic procedure, C3H/He (C3) mice were high and C57BL/6 (B6) mice were low responders. High responsiveness was inherited as a dominant characteristic in (B6XC3)F1 hybrid mice. In these strains, the primary antibody response was analyzed for heterogeneity by isoelectric focusing (IEF). The IEF spectra were visualized with the use of the capacity of antibody to inhibit the amylase activity of antigen. Increases in the antigen dose and in the time interval between immunization and bleeding resulted in increases in antibody titers accompanied by strong staining of focused antibodies and by the expansion of the pH range where antibodies were focused. High responsiveness in C3 and F1 hybrid mice was also associated with the increase in intensity of stain and the rapid expansion of pH range of focused antibodies. Another strain difference was noted in the isoelectric point (pI) values of antibodies taken early in the primary response. B6 antisera contained those fractions of antibodies focusing over a more alkaline area than C3 antibodies. A similar strain difference in the pI values of antibodies occurred in the response to an irrelevant antigen, Taka-amylase A (TAA), suggesting that the hypervariable regions of antibody molecules play no major part in the strain difference observed. Antisera from F1 hybrid mice displayed bands covering the combined pH ranges of B6 and C3 spectrotypes.