Mitsuyo Maeda
Overview
Explore the profile of Mitsuyo Maeda including associated specialties, affiliations and a list of published articles.
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Articles
42
Citations
2233
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Recent Articles
1.
Okinaka Y, Maeda M, Kataoka Y, Nakagomi T, Doi A, Boltze J, et al.
Stem Cells Dev
. 2024 Jul;
33(17-18):505-515.
PMID: 39028017
Intravascularly transplanted bone marrow cells, including bone marrow mononuclear cells (BM-MNC) and mesenchymal stem cells, transfer water-soluble molecules to cerebral endothelial cells via gap junctions. After transplantation of BM-MNC, this...
2.
Negishi K, Aizawa K, Shindo T, Suzuki T, Sakurai T, Saito Y, et al.
Sci Rep
. 2024 Apr;
14(1):7874.
PMID: 38570616
No abstract available.
3.
Itoh M, Tamura A, Kanai S, Tanaka M, Kanamori Y, Shirakawa I, et al.
J Exp Med
. 2023 Sep;
220(11).
PMID: 37725372
Accumulation of lipotoxic lipids, such as free cholesterol, induces hepatocyte death and subsequent inflammation and fibrosis in the pathogenesis of nonalcoholic steatohepatitis (NASH). However, the underlying mechanisms remain unclear. We...
4.
Kunishima N, Takeda Y, Hirose R, Kume S, Maeda M, Oguchi A, et al.
Microscopy (Oxf)
. 2022 Jul;
71(6):315-323.
PMID: 35778966
X-ray microscopes adopting computed tomography enable nondestructive 3D visualization of biological specimens at micron-level resolution without conventional 2D serial sectioning that is a destructive/laborious method and is routinely used for...
5.
Maeda S, Minato Y, Kuwahara-Otani S, Yamanaka H, Maeda M, Kataoka Y, et al.
J Histochem Cytochem
. 2022 Jun;
70(7):495-513.
PMID: 35708491
Nerves in the renal parenchyma comprise sympathetic nerves that act on renal arteries and tubules to decrease blood flow and increase primary urine reabsorption, respectively. Synaptic vesicles release neurotransmitters that...
6.
Negishi K, Aizawa K, Shindo T, Suzuki T, Sakurai T, Saito Y, et al.
Sci Rep
. 2022 May;
12(1):8844.
PMID: 35614093
Pathogenic variants in myosin heavy chain (Myh11) cause familial thoracic aortic aneurysms and dissections (FTAAD). However, the underlying pathological mechanisms remain unclear because of a lack of animal models. In...
7.
Sakuma R, Kobayashi M, Kobashi R, Onishi M, Maeda M, Kataoka Y, et al.
Stem Cells
. 2022 Mar;
40(7):641-654.
PMID: 35353891
Pericytes (PCs) are a mural support cell population elongated at intervals along the walls of capillaries. Recent studies reported that PCs are multipotent cells that are activated in response to...
8.
Takeuchi Y, Saino O, Okinaka Y, Ogawa Y, Akamatsu R, Kikuchi-Taura A, et al.
Front Aging Neurosci
. 2022 Feb;
14:759159.
PMID: 35185523
Circulating white blood cells (WBC) contribute toward maintenance of cerebral metabolism and brain function. Recently, we showed that during aging, transcription of metabolism related genes, including energy source transports, in...
9.
Ohtsuka J, Imai M, Fukumura M, Maeda M, Eguchi A, Ono R, et al.
iScience
. 2021 Nov;
24(12):103379.
PMID: 34805782
We developed an intranasal vaccine against severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) using the replication-incompetent human parainfluenza virus type 2 (hPIV2) vector BC-PIV, which can deliver ectopic gene as...
10.
Tamura Y, Takata K, Eguchi A, Maeda M, Kataoka Y
PLoS One
. 2021 Apr;
16(4):e0249729.
PMID: 33822814
NG2 immunoreactive cells (NG2 cells) are found in the brain and peripheral tissues including the skin, intestinal tracts, and bladder. In a previous study, we observed the presence of NG2...