Hiroshi Miyanishi
Overview
Explore the profile of Hiroshi Miyanishi including associated specialties, affiliations and a list of published articles.
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Articles
17
Citations
53
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0
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Recent Articles
1.
Konno N, Togashi A, Miyanishi H, Azuma M, Nakamachi T, Matsuda K
J Exp Zool A Ecol Integr Physiol
. 2024 Dec;
343(3):356-372.
PMID: 39718083
In euryhaline teleosts, the cystic fibrosis transmembrane conductance regulator (CFTR) in seawater (SW)-type chloride cells facilitates apical Cl secretion for SW adaptation, while alternative Cl excretion pathways remain understudied. This...
2.
Yamamoto J, Deguchi H, Sumiyoshi T, Nakagami K, Saito A, Miyanishi H, et al.
Mar Biotechnol (NY)
. 2024 Jun;
26(4):658-671.
PMID: 38888725
Intracellular bacteria such as those belonging to the genus Edwardsiella can survive and proliferate within macrophages. However, the detailed mechanisms underlying the host macrophage immune response and pathogen evasion strategies...
3.
Fujishiro K, Miyanishi H
Zoolog Sci
. 2023 Oct;
40(5):404-413.
PMID: 37818889
High stocking densities have negative effects on fish. However, the mechanism mediating density perception and growth inhibition is still unknown. This study was conducted to confirm the occurrence of growth...
4.
Okamura Y, Miyanishi H, Kono T, Sakai M, Hikima J
Fish Shellfish Immunol Rep
. 2022 Nov;
2:100028.
PMID: 36420487
Phospholipase A2 (PLA2), a phospholipid hydrolase, has recently attracted attention owing to its broad functionality. Immunological evidence has revealed increased susceptibility to infectious diseases and immunodeficiency in knockout (KO) mice...
5.
Takeuchi T, Hata T, Miyanishi H, Yuasa T, Setoguchi S, Takeda A, et al.
Fish Shellfish Immunol
. 2022 Jun;
127:238-246.
PMID: 35724845
In recent years, studies on circadian control in immunity have been actively conducted in mammals, but little is known about circadian rhythms in the field of fish immunology. In this...
6.
Takagi W, Sugahara F, Higuchi S, Kusakabe R, Pascual-Anaya J, Sato I, et al.
BMC Biol
. 2022 Apr;
20(1):76.
PMID: 35361194
Background: The endostyle is an epithelial exocrine gland found in non-vertebrate chordates (amphioxi and tunicates) and the larvae of modern lampreys. It is generally considered to be an evolutionary precursor...
7.
Takahashi Y, Okamura Y, Harada N, Watanabe M, Miyanishi H, Kono T, et al.
Front Immunol
. 2021 Nov;
12:688036.
PMID: 34759916
Mucosal tissue forms the first line of defense against pathogenic microorganisms. Cellular damage in the mucosal epithelium may induce the interleukin (IL)-22-related activation of many immune cells, which are essential...
8.
Okamura Y, Miyanishi H, Kinoshita M, Kono T, Sakai M, Hikima J
Sci Rep
. 2021 Jun;
11(1):12099.
PMID: 34103614
In the intestine, the host must be able to control the gut microbiota and efficiently absorb transiently supplied metabolites, at the risk of enormous infection. In mammals, the inflammatory cytokine...
9.
Okamura Y, Morimoto N, Ikeda D, Mizusawa N, Watabe S, Miyanishi H, et al.
Front Immunol
. 2020 Apr;
11:425.
PMID: 32256492
In mammals, interleukin (IL)-17A and F are hallmark inflammatory cytokines that play key roles in protection against infection and intestinal mucosal immunity. In the gastrointestinal tract (GI), the induction of...
10.
Byun J, Hyeon J, Kim E, Kim B, Miyanishi H, Kagawa H, et al.
PeerJ
. 2020 Mar;
8:e8326.
PMID: 32149019
This study was carried out to identify and estimate physiological function of a new type of opsin subfamily present in the retina and whole brain tissues of Japanese eel using...