Functional characterization of testis-brain RNA-binding protein, TB-RBP/Translin, in translational regulation.

Testis-brain RNA-binding protein (TB-RBP/Translin) is known to contribute to the translational repression of a subset of haploid cell-specific mRNAs, including protamine 2 (Prm2) mRNA. Mutant mice lacking TB-RBP display abnormal spermatogenesis, despite normal male fertility. In this study, we carried out functional analysis of TB-RBP in mammalian cultured cells to understand the mechanism of translational repression by this RNA-binding protein. Although the amino acid sequence contained a eukaryotic translation initiation factor 4E (EIF4E)-recognition motif, TB-RBP failed to interact with EIF4E. In cultured cells, TB-RBP was unable to reduce the activity of luciferase encoded by a reporter mRNA carrying the 3'-untranslated region of Prm2. However, λΝ-BoxB tethering assay revealed that the complex of TB-RBP with its binding partner, Translin-associated factor X (TRAX), exhibits the ability to reduce the luciferase reporter activity by degrading the mRNA. These results suggest that TB-RBP may play a regulatory role in determining the sequence specificity of TRAX-catalyzed mRNA degradation.

PAPOLB/TPAP regulates spermiogenesis independently of chromatoid body-associated factors.

Mutant mice lacking a testis-specific cytoplasmic poly(A) polymerase, PAPOLB/TPAP, exhibit spermiogenesis arrest and male infertility. However, the mechanism by which PAPOLB regulates spermiogenesis remains unclear. In this study, we examined the relationships between PAPOLB and other spermiogenesis regulators present in the chromatoid body (CB). The loss of PAPOLB had no impact either on the abundance of CB components such as PIWIL1, TDRD6, YBX2, and piRNAs, or on retrotransposon expression. In addition, localization of CB proteins and CB architecture were both normal in PAPOLB-null mice. No interactions were observed between PAPOLB and PIWIL1 or YBX2. While PIWIL1 and YBX2 were associated with translationally inactive messenger ribonucleoproteins and translating polyribosomes, PAPOLB was present almost exclusively in the mRNA-free fractions of sucrose gradients. These results suggest that PAPOLB may regulate spermiogenesis through a pathway distinct from that mediated by CB-associated factors.

[The association of expression and gene polymorphism of the thymidylate synthase gene with 5-fluoro-5'-deoxyuridine sensitivity in gastric cancer cell lines].

Thymidylate synthase (TS) is a target enzyme of 5-fluorouracil (5-FU), and the TS expression level of cancer tissues is a potential predictor of the response to 5-FU-based chemotherapy. The TS gene has a polymorphic tandem-repeat sequence, which is associated with its protein expression. Therefore, the TS polymorphism may also be a predictor of the response to 5-FU-based chemotherapy. In this study, we analyzed the TS genotype, TS protein level, and sensitivity to 5-fluoro-5'-deoxyuridine (5'-dFUrd) in 10 human gastric cancer cell lines. TS genotype was classified into 2R-homozygote (2R/2R, n=3), 3R-homozygote (3R/3R, n=5), and 2R/3R-heterozygote (2R/3R, n=2). The cell lines with 3R/3R showed a significantly higher IC50 value compared to those with 2R/2R or 2R/3R genotype. There was no relationship between TS protein level and 5'-dFUrd sensitivity. However, a statistically significant relationship was revealed between them when the subgroup with the genotypes of 2R/2R or 2R/3R was considered (r=0.815, p<0.05). In this subgroup, the cell lines with higher TS protein showed higher IC50 value for 5'-dFUrd, indicating less sensitivity to 5'-dFUrd. An identical relationship between the TS protein level and IC50 was also observed in the subgroup with 3R/3R genotype, although it did not reach statistical significance (r=0.745, p=0.09). These results suggest that the TS gene polymorphism and TS protein level may be independent predictors for 5-FU-based chemotherapy.