1. Anderson RB, Bergner AJ, Taniguchi M, Fujisawa H, Forrai A, Robb L, Young HM. 2007. Effects of different regions of the developing gut on the
migration of enteric neural crest-derived cells: a role for Sema3A, but not Sema3F. Dev Biol 305: 287–299. [Medline] [CrossRef]
2. Arai M, Mantani Y, Nakanishi S, Haruta T, Nishida M, Yuasa H, Yokoyama T, Hoshi N, Kitagawa H. 2020. Morphological and phenotypical diversity
of eosinophils in the rat ileum. Cell Tissue Res 381: 439–450. [Medline] [CrossRef]
3. Boesmans W, Cirillo C, Van den Abbeel V, Van den Haute C, Depoortere I, Tack J, Vanden Berghe P. 2013. Neurotransmitters involved in fast
excitatory neurotransmission directly activate enteric glial cells. Neurogastroenterol Motil 25: e151–e160. [Medline] [CrossRef]
4. Boesmans W, Lasrado R, Vanden Berghe P, Pachnis V. 2015. Heterogeneity and phenotypic plasticity of glial cells in the mammalian enteric nervous
system. Glia 63: 229–241. [Medline] [CrossRef]
5. Bohórquez DV, Samsa LA, Roholt A, Medicetty S, Chandra R, Liddle RA. 2014. An enteroendocrine cell-enteric glia connection revealed by 3D
electron microscopy. PLoS One 9: e89881. [Medline] [CrossRef]
6. Bush TG, Savidge TC, Freeman TC, Cox HJ, Campbell EA, Mucke L, Johnson MH, Sofroniew MV. 1998. Fulminant jejuno-ileitis following ablation
of enteric glia in adult transgenic mice. Cell 93: 189–201. [Medline] [CrossRef]
7. Cook RD, Burnstock G. 1976. The ultrastructure of Auerbach’s plexus in the guinea-pig. II. Non-neuronal elements. J Neurocytol 5: 195–206.
[Medline] [CrossRef]
8. Fruttiger M, Karlsson L, Hall AC, Abramsson A, Calver AR, Boström H, Willetts K, Bertold CH, Heath JK, Betsholtz C, Richardson WD. 1999.
Defective oligodendrocyte development and severe hypomyelination in PDGF-A knockout mice. Development 126: 457–467. [Medline] [CrossRef]
9. Gabella G. 1972. Fine structure of the myenteric plexus in the guinea-pig ileum. J Anat 111: 69–97. [Medline]
10. Grubišić V, Gulbransen BD. 2017. Enteric glia: the most alimentary of all glia. J Physiol 595: 557–570. [Medline] [CrossRef]
11. Hanani M, Reichenbach A. 1994. Morphology of horseradish peroxidase (HRP)-injected glial cells in the myenteric plexus of the guinea-pig. Cell
Tissue Res 278: 153–160. [Medline] [CrossRef]
12. Kabouridis PS, Lasrado R, McCallum S, Chng SH, Snippert HJ, Clevers H, Pettersson S, Pachnis V. 2015. Microbiota controls the homeostasis of
glial cells in the gut lamina propria. Neuron 85: 289–295. [Medline] [CrossRef]
13. Kandel ER, Schwartz JH, Jessel TM. 2000. Principles of Neural Science, 4th ed., McGraw-Hill, New York.
14. Komuro T, Bałuk P, Burnstock G. 1982. An ultrastructural study of neurons and non-neuronal cells in the myenteric plexus of the rabbit colon.
Neuroscience 7: 1797–1806. [Medline] [CrossRef]
15. Kremer JR, Mastronarde DN, McIntosh JR. 1996. Computer visualization of three-dimensional image data using IMOD. J Struct Biol 116: 71–76.
[Medline] [CrossRef]
16. Mantani Y, Haruta T, Nakanishi S, Sakata N, Yuasa H, Yokoyama T, Hoshi N. 2021. Ultrastructural and phenotypical diversity of macrophages in the
rat ileal mucosa. Cell Tissue Res 385: 697–711. [Medline] [CrossRef]
17. Mantani Y, Haruta T, Nishida M, Yokoyama T, Hoshi N, Kitagawa H. 2019. Three-dimensional analysis of fibroblast-like cells in the lamina propria
of the rat ileum using serial block-face scanning electron microscopy. J Vet Med Sci 81: 454–465. [Medline] [CrossRef]
18. Nakanishi S, Mantani Y, Haruta T, Yokoyama T, Hoshi N. 2020. Three-dimensional analysis of neural connectivity with cells in rat ileal mucosa by
serial block-face scanning electron microscopy. J Vet Med Sci 82: 990–999. [Medline] [CrossRef]
19. Nakanishi S, Mantani Y, Ohno N, Morishita R, Yokoyama T, Hoshi N. 2023. Histological study on regional specificity of the mucosal nerve network
in the rat large intestine. J Vet Med Sci 85: 123–134. [Medline] [CrossRef]
20. Nasser Y, Keenan CM, Ma AC, McCafferty DM, Sharkey KA. 2007. Expression of a functional metabotropic glutamate receptor 5 on enteric glia is
altered in states of inflammation. Glia 55: 859–872. [Medline] [CrossRef]
21. Sakata N, Mantani Y, Nakanishi S, Morishita R, Yokoyama T, Hoshi N. 2022. Histological study of diurnal changes in bacterial settlement in the rat
alimentary tract. Cell Tissue Res 389: 71–83. [Medline] [CrossRef]
22. Schindelin J, Arganda-Carreras I, Frise E, Kaynig V, Longair M, Pietzsch T, Preibisch S, Rueden C, Saalfeld S, Schmid B, Tinevez JY, White DJ,
Hartenstein V, Eliceiri K, Tomancak P, Cardona A. 2012. Fiji: an open-source platform for biological-image analysis. Nat Methods 9: 676–682.
[Medline] [CrossRef]
23. Spassky N, de Castro F, Le Bras B, Heydon K, Quéraud-LeSaux F, Bloch-Gallego E, Chédotal A, Zalc B, Thomas JL. 2002. Directional guidance of
oligodendroglial migration by class 3 semaphorins and netrin-1. J Neurosci 22: 5992–6004. [Medline] [CrossRef]
24. Tamura S, Mantani Y, Nakanishi S, Ohno N, Yokoyama T, Hoshi N. 2022. Region specificity of fibroblast-like cells in the mucosa of the rat large
intestine. Cell Tissue Res 389: 427–441. [Medline] [CrossRef]
25. von Boyen GB, Steinkamp M, Reinshagen M, Schäfer KH, Adler G, Kirsch J. 2006. Nerve growth factor secretion in cultured enteric glia cells is
modulated by proinflammatory cytokines. J Neuroendocrinol 18: 820–825. [Medline] [CrossRef]
26. Yamamoto K, Qi WM, Yokoo Y, Miyata H, Udayanga KGS, Kawano J, Yokoyama T, Hoshi N, Kitagawa H. 2009. Histoplanimetrical study on the
spatial relationship of distribution of indigenous bacteria with mucosal lymphatic follicles in alimentary tract of rat. J Vet Med Sci 71: 621–630.
[Medline] [CrossRef]
27. Yokoo Y, Miyata H, Udayanga KGS, Qi WM, Takahara E, Mantani Y, Yokoyama T, Kawano J, Hoshi N, Kitagawa H. 2011. Immunohistochemical
and histoplanimetrical study on the spatial relationship between the settlement of indigenous bacteria and the secretion of bactericidal peptides in rat
alimentary tract. J Vet Med Sci 73: 1043–1050. [Medline] [CrossRef]
J. Vet. Med. Sci. 85(10): 1034–1039, 2023
1039
...
論文の公開元へ
