ヒトの健康科学研究所 (Research
Institute for Human Health Science; RIH2S)
業績
[2019]
Ichihashi M, Nakamura
Y, Muto M, Nishikata T, Inui T, Uto Y.
A case of chronic actinic dermatitis that responded completely to
treatment with oral colostrum-macrophage activating factor
(colostrum-MAF). PhotodermatolPhotoimmunolPhotomed,doi: 10.1111/phpp.12469
(2019) [Pubmed]
[2018]
Ishikawa M, Mashiba R, Kawakatsu K,
Nakagawa H, Kitajima Y, Ishizuka M, Nishikata T.
Anti-Inflammatory Effect of 5-Aminolevulinic Acid on Macrophage in vitro. ALA-Porphyrin Science, 7 (1), 3─11 (2018)
Minamiyama Y, Ishikawa
M, Shibata T, Tsuji G, Nishikata T, Takemura S, Ichihashi M.
Effects of platinum and palladium nanocolloid on
macrophage polarization in relevance to repigmentation
of vitiligo. J CutanImmunol Allergy, 1:139–146 (2018)
Goto T, Kanda K, NishikataT.
Non-centrosomal microtubule structures regulated
by egg activation signaling contribute to cytoplasmic and cortical
reorganization in the ascidian egg. Dev Biol.
https://doi.org/10.1016/j.ydbio.2018.10.014 (2018)
[PDF]
Nishikata T, Goto T, Yagi H, Ishii H.
Massive cytoplasmic transport and microtubule organization in fertilized
chordate eggs. Dev Biol.pii:
S0012-1606(18)30024-1. doi:
10.1016/j.ydbio.2018.11.019 (2018) [Pubmed]
Mashiba R, Ishikawa
M, Sumiya Y, Kawakatsu
K, Tran NK, Nishikata T.
Phagocytic Activation of Macrophages with Serum MAF Depends on Engulfment
Efficiency and Not Migratory Activity. Anticancer Res.38(7):4295-4298. doi: 10.21873/anticanres.12727 (2018) [Pubmed]
K. Nagahama,
N. Oyama, K. Ono, A. Hotta,
K. Kawauchi, T. Nishikata
Nanocomposite injectable gels capable of self-replenishing regenerative
extracellular microenvironments for in vivo tissue engineering. Biomaterials Science, 6, 550-561(2018) [Pubmed]
Mami Ishikawa, RihoMashiba, KumpeiKawakatsu, Ngoc Kiet Tran, TakahitoNishikata
A high-throughput quantitative assay system for macrophage phagocytic
activity. Macrophage, 5, (2018) [Journal]
[2017]
Hirokazu Ishii,
Toshiyuki Goto and TakahitoNishikata
Microtubule array observed in the posterior-vegetal cortex during
cytoplasmic and cortical reorganization of the ascidian egg. Growth and Differentiation, 59, 648-656(2017) [PubMed]
[2016]
Sumiya Y.U., Inoue
T., Ishikawa M., Inui T., Kuchiike D., Kubo K., Uto Y., Nishikata T.
Macrophages Exhibit a Large Repertoire of Activation States via Multiple
Mechanisms of Macrophage-activating Factors. Anticancer Res.36, 3619-23 (2016) [PubMed][Journal]
Inui T., Amitani H., Kubo K., Kuchiike
D., Uto Y., Nishikata
T., Mette M.
Case Report: A Non-small Cell Lung Cancer Patient
Treated with GcMAF, Sonodynamic
Therapy and Tumor Treating Fields. Anticancer Res.36, 3767-70 (2016) [PubMed][Journal]
Inui T., Katsuura G., Kubo K., Kuchiike
D., Chenery L., Uto
Y., Nishikata T., Mette M.
Case Report: GcMAF Treatment in a Patient with
Multiple Sclerosis. Anticancer Res.36, 3771-3774 (2016) [PubMed][Journal]
[2015]
Takamatsu K., Yamashita
H., Satake S., Kazusa
K., Tabata H., and Nishikata
T.
Effects of four-week feed restriction on toxicological parameters in
beagle dogs. Experimental Animals64, 269-280 (2015) [PubMed][Journal]
Inoue T., Ishikawa M., Sumiya Y., Kohda H, Inui T.,
Kuchiike D., Kubo K., Uto
Y and Nishikata T.
Establishment of a macrophage-activating factor (MAF) assay system using
human-monocytic cell line, THP-1. Anticancer Research 35, 4441-4445 (2015) [PubMed][Journal]
Sumiya Y., Ishikawa
M., Inoue T., Inui T., Kuchiike D., Kubo K., Uto Y., and Nishikata T.
The Macrophage Activation Mechanisms in Human Monocytic
Cell Line-derived Macrophages. Anticancer Research 35, 4447-4451 (2015) [PubMed][Journal]
Inui T., Kubo K., Kuchiike D., Uto Y., Nishikata T., Sakamoto N., Mette M.
Oral Colostrum Macrophage-activating Factor for Serious Infection and
Chronic Fatigue Syndrome: Three Case Reports. Anticancer Research 35 (8), 4545-4549 (2015) [PubMed][Journal]
[2014]
Takamatsu K., Wakata A., Hirota R., Tabata H., and Nishikata T.
Refinement and verification of test conditions for colony-forming unit
assay in dog bone marrow cells with preservable
colony specimens. Comparative Clinical Pathology23, 1133-1139;DOI:
10.1007/s00580-013-1752-2 (2014)
Takamatsu K., Wakata A., Tabata H., and Nishikata T.
Refinement and verification of test conditions for colony-forming unit
assay in rat bone marrow cells with preservable
colony specimens. Comparative Clinical Pathology23, 569-575; DOI
:10.1007/s00580-012-1653-9 (2014)
Inui T, Makita K, Miura
H, Matsuda A. Kuchiike D, Kubo K, Mette M, Uto Y, Nishikata T, Hori H,
and Sakamoto N.
Case Report: A Breast Cancer Patient Treated with GcMAF,
Sonodynamic Therapy and Hormone Therapy. Anticancer Research34(8), 4589-4593 (2014) [PubMed][Journal]
Ishikawa M, Inoue T,
Inui T, Kuchiike D, Kubo K, Uto
Y, and Nishikata T.
A Novel Assay System for Macrophage Activating Factor Activity Using a
Human U937 Cell Line. Anticancer Research34(8), 4577-4581 (2014) [PubMed][Journal]
Ishikawa M, Inoue T, Shirai T, Takamatsu K, Kunihiro
S, Ishii H, and Nishikata T.
Simultaneous Expression of Cancer Stem Cell-like Properties and
Cancer-associated Fibroblast-like Properties in a Primary Culture of
Breast Cancer Cells. Cancers6, 1570-1578; doi:10.3390/cancers6031570 (2014) [PubMed][Journal]
Ishii H., Shirai T., Makino C., and Nishikata
T.
Mitochondrial inhibitor sodium azide inhibits the reorganization of
mitochondria-rich cytoplasm and the establishment of the anteroposterior axis
in ascidian embryo. Devl. Growth Differ.56,
175-188; doi: 10.1111/dgd.12117 (2014) [PubMed]
[2013]
NishikataT., Ishikawa
M., Matsuyama T., Takamatsu K., Fukuhara T., and Konishi
Y.
Primary culture of breast cancer: A model system for
epithelial-mesenchymal transition and cancer stem cells. Anticancer Research33, 2867-2874 (2013) [PubMed][Journal]
Janet Chenevert, Gerard Pruliere, Hirokazu Ishii, Christian Sardet,
TakahitoNishikata
Biochemical purification of mitochondrial HSP60 and ATPsynthase
from ascidian eggs: Implications for antibody specificity. PLoS One8, e52996 (2013) [PubMed][Journal]
[2012]
Ishii H., Kunihiro S., Tanaka M., Hatano
K. and Nishikata T.
Cytosolic subunits of ATP synthase are localized to the cortical
endoplasmic reticulum-rich domain of the ascidian egg myoplasm. Devl. Growth Differ.54,
753-766 (2012) [PubMed]