Yosuke Sato scite author profile

Northwest Africa (NWA) 6704 is a unique achondrite characterized by a near-chondritic major element composition with a remarkably intact igneous texture. To investigate the origin of this unique achondrite, we have conducted a combined petrologic, chemical, and 187 Re-187 Os, O, and Ti isotopic study. The meteorite consists of orthopyroxene megacrysts (En 55-57 Wo 3-4 Fs 40-42 ; Fe/Mn = 1.4) up to 1.7 cm in length with finer interstices of olivine (Fa 50-53 ; Fe/Mn = 1.1-2.1), chromite (Cr# ~ 0.94), awaruite, sulfides, plagioclase (Ab 92 An 5 Or 3 ) and merrillite. The results of morphology, lattice orientation analysis, and mineral chemistry indicate that orthopyroxene megacrysts were originally hollow dendrites that most likely crystallized under high supersaturation and super-cooling conditions (1-10 2 °C/h), whereas the other phases crystallized

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Formation of ordered macropores and templated nanopores in silica sol–gel system incorporated with EO–PO–EO triblock copolymer

Sato

Nakanishi

Hirao

et al. 2001

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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Demethylallosamidin, a chitinase inhibitor, suppresses airway inflammation and hyperresponsiveness

Matsumoto

Inoue

Sato

et al. 2009

Biochemical and Biophysical Research Communications

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Palladium‐Catalyzed Asymmetric Synthesis of Silicon‐Stereogenic 5,10‐Dihydrophenazasilines via Enantioselective 1,5‐Palladium Migration

et al. 2017

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Tumor-immune profiling of CT-26 and Colon 26 syngeneic mouse models reveals mechanism of anti-PD-1 response

Sato

Liu

et al. 2021

BMC Cancer

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Background Immune checkpoint blockade (ICB) therapies have changed the paradigm of cancer therapies. However, anti-tumor response of the ICB is insufficient for many patients and limited to specific tumor types. Despite many preclinical and clinical studies to understand the mechanism of anti-tumor efficacy of ICB, the mechanism is not completely understood. Harnessing preclinical tumor models is one way to understand the mechanism of treatment response. Methods In order to delineate the mechanisms of anti-tumor activity of ICB in preclinical syngeneic tumor models, we selected two syngeneic murine colorectal cancer models based on in vivo screening for sensitivity with anti-PD-1 therapy. We performed tumor-immune profiling of the two models to identify the potential mechanism for anti-PD-1 response. Results We performed in vivo screening for anti-PD-1 therapy across 23 syngeneic tumor models and found that CT-26 and Colon 26, which are murine colorectal carcinoma derived from BALB/c mice, showed different sensitivity to anti-PD-1. CT-26 tumor mice were more sensitive to the anti-PD-1 antibody than Colon 26, while both models show similarly sensitivity to anti-CTLA4 antibody. Immune-profiling showed that CT-26 tumor tissue was infiltrated with more immune cells than Colon 26. Genomic/transcriptomic analyses highlighted thatWnt pathway was one of the potential differences between CT-26 and Colon 26, showing Wnt activity was higher in Colon 26 than CT-26. . Conclusions CT-26 and Colon 26 syngeneic tumor models showed different sensitivity to anti-PD-1 therapy, although both tumor cells are murine colorectal carcinoma cell lines from BALB/c strain. By characterizing the mouse cells lines and tumor-immune context in the tumor tissues with comprehensive analysis approaches, we found that CT-26 showed “hot tumor” profile with more infiltrated immune cells than Colon 26. Further pathway analyses enable us to propose a hypothesis that Wnt pathway could be one of the major factors to differentiate CT-26 from Colon 26 model and link to anti-PD-1 response. Our approach to focus on preclinical tumor models with similar genetic background but different sensitivity to anti-PD-1 therapy would contribute to illustrating the potential mechanism of anti-PD-1 response and to generating a novel concept to synergize current anti-PD-1 therapies for cancer patients.

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Yosuke Sato

The origin of the unique achondrite Northwest Africa 6704: Constraints from petrology, chemistry and Re–Os, O and Ti isotope systematics

Formation of ordered macropores and templated nanopores in silica sol–gel system incorporated with EO–PO–EO triblock copolymer

Demethylallosamidin, a chitinase inhibitor, suppresses airway inflammation and hyperresponsiveness

Palladium‐Catalyzed Asymmetric Synthesis of Silicon‐Stereogenic 5,10‐Dihydrophenazasilines via Enantioselective 1,5‐Palladium Migration

Tumor-immune profiling of CT-26 and Colon 26 syngeneic mouse models reveals mechanism of anti-PD-1 response

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