Katsumasa Takahashi scite author profile

Six4 is a member of the Six family genes, homologues of Drosophila melanogaster sine oculis. The gene is thought to be involved in neurogenesis, myogenesis, and development of other organs, based on its specific expression in certain neuronal cells of the developing embryo and in adult skeletal muscles. To elucidate the biological roles of Six4, we generated Six4-deficient mice by replacing the Six homologous region and homeobox by the ␤-galactosidase gene. 5-Bromo-4-chloro-3-indolyl-␤-D-galactopyranoside staining of the heterozygous mutant embryos revealed expression of Six4 in cranial and dorsal root ganglia, somites, otic and nasal placodes, branchial arches, Rathke's pouch, apical ectodermal ridges of limb buds, and mesonephros. The expression pattern was similar to that of Six1 except at the early stage of embryonic day 8.5. Six4-deficient mice were born according to the Mendelian rule with normal gross appearance and were fertile. No hearing defects were detected. Six4-deficient embryos showed no morphological abnormalities, and the expression patterns of several molecular markers, e.g., myogenin and NeuroD3 (neurogenin1), were normal. Our results indicate that Six4 is not essential for mouse embryogenesis and suggest that other members of the Six family seem to compensate for the loss of Six4.

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Immunosuppressive activity of CD14⁺ HLA‐DR⁻ cells in squamous cell carcinoma of the head and neck

Chikamatsu

Sakakura

Toyoda

et al. 2012

Cancer Science

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Myeloid‐derived suppressor cells (MDSC) represent a heterogeneous population and have the potential to suppress immune responses via diverse mechanisms. In recent studies, a new subset of MDSC was identified by the markers CD14+ and HLA‐DR− in the peripheral blood from cancer patients. In this study, we investigated the proportions and characteristics of CD14+ HLA‐DR− cells in patients with squamous cell carcinoma of the head and neck (SCCHN). As expected, the percentage of CD14+ HLA‐DR− cells was significantly elevated in patients relative to healthy donors and the sorted CD14+ HLA‐DR− cells were able to suppress effectively both the proliferation and IFN‐γ production of anti‐CD3/anti‐CD28 stimulated T cells, suggesting that CD14+ HLA‐DR− cells in patients with SCCHN contribute to the immune suppressive status. Furthermore, CD14+ HLA‐DR− cells revealed a higher level of CD86 and PD‐L1 expression and transforming growth factor (TGF)‐β production than CD14+ HLA‐DR+ cells. Addition of anti‐CD86 mAb, anti‐PD‐L1 mAb and anti‐TGF‐β mAb partially restored T‐cell proliferation and IFN‐γ production, respectively, indicating that the suppressive effects of CD14+ HLA‐DR− cells appear to be mediated by various molecules, including coinhibitory molecules and cytokines. Our data suggest that CD14+ HLA‐DR− cells act as potent immunosuppressive cells and particularly contribute to tumor escape from the host immune system in patients with SCCHN. (Cancer Sci 2012; 103: 976–983)

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A Point Mutation in a Plasma Membrane Ca2+-ATPase Gene Causes Deafness in Wriggle Mouse Sagami

Takahashi

Kitamura

1999

Biochemical and Biophysical Research Communications

104

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Sexually Dimorphic Expression of the Novel Germ Cell Antigen TEX101 During Mouse Gonad Development

Takayama

Mishima

Mori

et al. 2005

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Prospermatogonia, or gonocytes, are the cells that differentiate from primordial germ cells to the first mature type of spermatogonia in the developing testis. Although prospermatogonia play a central role in this stage (i.e., prespermatogenesis), the details regarding their characterization have not been fully elucidated. Recently, we identified a novel mouse testicular germ cell-specific antigen, TES101 reactive protein (TES101RP), in the adult mouse testis. The protein TES101RP is also designated as protein TEX101. In the present study, we investigated the expression of TEX101 on germ cells in developing mouse gonads using histochemical techniques (i.e., immunohistochemistry, BrdU labeling, and TUNEL staining) and reverse transcription-polymerase chain reaction. TEX101 appeared on germ cells in both male and female gonads after the pregonadal period. In the testis, TEX101 was expressed constitutively on surviving prospermatogonia during prespermatogenesis. After the initiation of spermatogenesis, the prospermatogonia differentiated into spermatogonia. TEX101 expression disappeared from the spermatogonia, but reappeared on spermatocytes and spermatids. In the ovary, TEX101 was expressed on germ cells until the start of folliculogenesis; TEX101 was not detected on oocytes that were surrounded by follicular cells. These findings indicate that TEX101 is a specific marker for both male and female germ cells during gonadal development. Because the on and off switching of TEX101 expression in germ cells almost parallels the kinetics of gametogenesis, TEX101 may play an important physiological role in germ cell development.

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