ログイン
ランキング
お知らせ
ログイン
文献詳細
特集 脳とフローラ
文献概要
腸内細菌はさまざまな生理機能や病態形成に関与しているが,脳や中枢神経機能にどのような影響を及ぼしているかについては十分に検討されていない。近年,腸内細菌は宿主のストレス応答や行動特性に影響することが明らかとなった。本論では,筆者らの人工菌叢マウスを用いた実験結果を踏まえて,その研究の現状について概説した。
参考文献
1)須藤信行: 脳腸相関. 公益財団法人日本ビフィズス菌センター用語集. http://bifidus-fund.jp/keyword/kw033.shtml
2)Qin J, Li R, Raes J, Arumugam M, Burgdorf KS, et al: A human gut microbial gene catalogue established by metagenomic sequencing. Nature 464: 59-65, 2010
3)Sudo N, Chida Y, Aiba Y, Sonoda J, Oyama N, et al: Postnatal microbial colonization programs the hypothalamic-pituitary-adrenal system for stress response in mice. J Physiol 558: 263-275, 2004
4)須藤信行: ストレスと腸内細菌. 分子精神医学15: 206-213, 2015
5)Porter JR, Rettger LF: Influence of diet on the distribution of bacteria in the stomach, small intestine, and cecum of the white rat. J Infect Dis 66: 104-110, 1940
6)Morishita Y, Ogata M: Studies on the alimentary flora of pig. V. Influence of starvation on the microbial flora. Nihon Juigaku Zasshi 32: 19-24, 1970
7)Suzuki K, Harasawa R, Yoshitake Y, Mitsuoka T: Effects of crowding and heat stress on intestinal flora, body weight gain, and feed efficiency of growing rats and chicks. Nihon Juigaku Zasshi 45: 331-338, 1983
8)鈴木邦夫, 光岡知足, 吉武 豊, 児玉義勝: ストレスと腸内フローラ. 光岡知足(編): 腸内フローラと生体防御, 学会出版センター, 東京, 1982, pp47-67
9)Lan PT, Sakamoto M, Benno Y: Effects of two probiotic Lactobacillus strains on jejunal and cecal microbiota of broiler chicken under acute heat stress condition as revealed by molecular analysis of 16S rRNA genes. Microbiol Immunol 48: 917-929, 2004
10)Bailey MT, Coe CL: Maternal separation disrupts the integrity of the intestinal microflora in infant rhesus monkeys. Dev Psychobiol 35: 146-155, 1999
11)Bailey MT, Lubach GR, Coe CL: Prenatal stress alters bacterial colonization of the gut in infant monkeys. J Pediatr Gastroenterol Nutr 38: 414-421, 2004
12)Holdeman LV, Good IJ, Moore WEC: Human fecal flora: variation in bacterial composition within individuals and a possible effect of emotional stress. Appl Environ Microbiol 31: 359-375, 1976
13)Lizko NN, Silov VM, Syrych GD: Events in he development of dysbacteriosis of the intestines in man under extreme conditions[Article in German]. Nahrung 28: 599-605, 1984
14)Takatsuka H, Takemoto Y, Okamoto T, Fujimori Y, Tamura S, et al: Changes in microbial flora in neutropenic patients with hematological disorders after the Hanshin-Awaji earthquake. Int J Hematol 71: 273-277, 2000
15)Knowles SR, Nelson EA, Palombo EA: Investigating the role of perceived stress on bacterial flora activity and salivary cortisol secretion: a possible mechanism underlying susceptibility to illness. Biol Psychol 77: 132-137, 2008
16)Zijlmans MA, Korpela K, Riksen-Walraven JM, de Vos WM, de Weerth C: Maternal prenatal stress is associated with the infant intestinal microbiota. Psychoneuroendocrinology 53: 233-245, 2015
17)須藤信行: 腸内細菌とサイコメタボリズム. 血管医学16: 49-55, 2015
18)Levine S, Huchton DM, Wiener SG, Rosenfeld P: Time course of the effect of maternal deprivation on the hypothalamic-pituitary-adrenal axis in the infant rat. Dev Psychobiol 24: 547-558, 1991
19)Meaney MJ, Aitken DH, van Berkel C, Bhatnagar S, Sapolsky RM: Effect of neonatal handling on age-related impairments associated with the hippocampus. Science 239: 766-768, 1988
20)Liu D, Diorio J, Tannenbaum B, Caldji C, Francis D, et al: Maternal care, hippocampal glucocorticoid receptors, and hypothalamic-pituitary-adrenal responses to stress. Science 277: 1659-1662, 1997
21)Landfield PW, Waymire JC, Lynch G: Hippocampal aging and adrenocorticoids: quantitative correlations. Science 202: 1098-1102, 1978
22)Sapolsky RM, Uno H, Rebert CS, Finch CE: Hippocampal damage associated with prolonged glucocorticoid exposure in primates. J Neurosci 10: 2897-2902, 1990
23)Lupien SJ, de Leon M, de Santi S, Convit A, Tarshish C, et al: Cortisol levels during human aging predict hippocampal atrophy and memory deficits. Nat Neurosci 1: 69-73, 1998
24)Nishino R, Mikami K, Takahashi H, Tomonaga, S, Furuse M, et al: Commensal microbiota modulate murine behaviors in a strictly contamination-free environment confirmed by culture-based methods. Neurogastroenterol Motil 25: 521-528, 2013
25)Diaz Heijtz R, Wang S, Anuar F, Qian Y, Björkholm B, et al: Normal gut microbiota modulates brain development and behavior. Proc Natl Acad Sci U S A 108: 3047-3052, 2011
26)Neufeld KM, Kang N, Bienenstock J, Foster JA: Reduced anxiety-like behavior and central neurochemical change in germ-free mice. Neurogastroenterol Motil 23: 255-264, 2011
27)Gareau MG, Wine E, Rodrigues DM, Cho JH, Whary MT, et al: Bacterial infection causes stress-induced memory dysfunction in mice. Gut 60: 307-317, 2011
28)De Palma G, Blennerhassett P, Lu J, Deng Y, Park AJ, et al: Microbiota and host determinants of behavioural phenotype in maternally separated mice. Nat Commun 6: 7735, 2015
29)Desbonnet L, Clarke G, Shanahan F, Dinan TG, Cryan JF, et al: Microbiota is essential for social development in the mouse. Mol Psychiatry 19: 146-148, 2014
30)Ezenwa VO, Gerardo NM, Inouye DW, Medina M, Xavier JB: Microbiology. Animal behavior and the microbiome. Science 338: 198-199, 2012
31)Vyas A, Kim SK, Giacomini N, Boothroyd JC, Sapolsky RM: Behavioral changes induced by Toxoplasma infection of rodents are highly specific to aversion of cat odors. Proc Natl Acad Sci U S A 104: 6442-6447, 2007
32)House PK, Vyas A, Sapolsky R: Predator cat odors activate sexual arousal pathways in brains of Toxoplasma gondii infected rats. PLOS ONE 6: e23277, 2011
33)Thomas F, Adamo S, Moore J: Parasitic manipulation: where are we and where should we go? Behav Processes 68: 185-199, 2005
34)Sampson TR, Mazmanian SK: Control of brain development, function, and behavior by the microbiome. Cell Host Microbe 17: 565-576, 2015
35)Sharon G, Segal D, Ringo JM, Hefetz A, Zilber-Rosenberg I, et al: Commensal bacteria play a role in mating preference of Drosophila melanogaster. Proc Natl Acad Sci U S A 107: 20051-20056, 2010
36)Bajaj JS: The role of microbiota in hepatic encephalopathy. Gut Microbes 5: 397-403, 2014
37)Forsythe P, Sudo N, Dinan T, Taylor VH, Bienenstock J: Mood and gut feelings. Brain Behav Immun 24: 9-16, 2010
38)Bravo JA, Forsythe P, Chew MV, Escaravage E, Savignac HM, et al: Ingestion of Lactobacillus strain regulates emotional behavior and central GABA receptor expression in a mouse via the vagus nerve. Proc Natl Acad Sci U S A 108: 16050-16055, 2011
39)Tsankova NM, Renthal W, Kumar A, Nestler EJ: Epigenetic regulation in psychiatric disorders. Nat Rev Neurosci 8: 355-367, 2007
40)Schroeder FA, Lin CL, Crusio WE, Akbarian S: Antidepressant-like effects of the histone deacetylase inhibitor, sodium butyrate, in the mouse. Biol Psychiatry 62: 55-64, 2007
41)Braniste V, Al-Asmakh M, Kowal C, Anuar F, Abbaspour A, et al: The gut microbiota influences blood-brain barrier permeability in mice. Science Transl Med 6: 263ra158, 2014
42)Hughes DT, Sperandio V: Inter-kingdom signalling: communication between bacteria and their hosts. Nat Rev Microbiol 6: 111-120, 2008
43)Fujiya M, Musch MW, Nakagawa Y, Hu S, Alverdy J, et al: The Bacillus subtilis quorum-sensing molecule CSF contributes to intestinal homeostasis via OCTN2, a host cell membrane transporter. Cell Host Microbe 1: 299-308, 2007
44)Lyte M, Ernst S: Catecholamine induced growth of gram negative bacteria. Life Sci 50: 203-212, 1992
45)Clarke MB, Hughes DT, Zhu C, Boedeker EC, Sperandio V: The QseC sensor kinase: a bacterial adrenergic receptor. Proc Natl Acad Sci U S A 103: 10420-10425, 2006
46)Asano Y, Hiramoto T, Nishino R, Aiba Y, Kimura T, et al: Critical role of gut microbiota in the production of biologically active, free catecholamines in the gut lumen of mice. Am J Physiol Gastrointest Liver Physiol 303: G1288-G1295, 2012
47)Erny D, Hrabě de Angelis AL, Jaitin D, Wieghofer P, Staszewski O, et al: Host microbiota constantly control maturation and function of microglia in the CNS. Nat Neurosci 18: 965-977, 2015
48)O'Mahony SM, Clarke G, Borre YE, Dinan TG, Cryan JF: Serotonin, tryptophan metabolism and the brain-gut-microbiome axis. Behav Brain Res 277: 32-48, 2015
49)van der Goot AT, Nollen EA: Tryptophan metabolism: entering the field of aging and age-related pathologies. Trends Mol Med 19: 336-344, 2013
50)Wikoff WR, Anfora AT, Liu J, Schultz PG, Lesley SA, et al: Metabolomics analysis reveals large effects of gut microflora on mammalian blood metabolites. Proc Natl Acad Sci U S A 106: 3698-3703, 2009
51)Lee JH, Wood TK, Lee J: Roles of indole as an interspecies and interkingdom signaling molecule. Trends Microbiol 23: 707-718, 2015
52)Bohbot JD, Jones PL, Wang G, Pitts RJ, Pask GM, et al: Conservation of indole responsive odorant receptors in mosquitoes reveals an ancient olfactory trait. Chem Senses 36: 149-160, 2011
53)Maes M, Leonard BE, Myint AM, Kubera M, Verkerk R: The new ‘5-HT’ hypothesis of depression: cell-mediated immune activation induces indoleamine 2,3-dioxygenase, which leads to lower plasma tryptophan and an increased synthesis of detrimental tryptophan catabolites (TRYCATs), both of which contribute to the onset of depression. Prog Neuropsychopharmacol Biol Psychiatry 35: 702-721, 2011
54)Matsumoto M, Kibe R, Ooga T, Aiba Y, Kurihara S, et al: Impact of intestinal microbiota on intestinal luminal metabolome. Sci Rep 2: 233, 2012
55)Gabastou JM, Nugon-Baudon L, Robert Y, Manuel C, Vaissade P, et al: Digestive amines of bacterial origin and behavior disorders. Apropos of a case[Article in French]. Pathol Biol (Paris) 44: 275-281, 1996
56)Song Y, Liu C, Finegold SM: Real-time PCR quantitation of clostridia in feces of autistic children. Appl Environ Microbiol 70: 6459-6465, 2004
57)Parracho HM, Bingham MO, Gibson GR, McCartney AL: Differences between the gut microflora of children with autistic spectrum disorders and that of healthy children. J Med Microbiol 54: 987-991, 2005
58)Buie T: Potential etiologic factors of microbiome disruption in autism. Clin Ther 37: 976-983, 2015
59)Hsiao EY, McBride SW, Hsien S, Sharon G, Hyde ER, et al: Microbiota modulate behavioral and physiological abnormalities associated with neurodevelopmental disorders. Cell 155: 1451-1463, 2013
60)Phillips JGP: The treatment of melancholia by the lactic acid bacillus. J Mental Sci 56: 422-431, 1910
61)Julianelle LA, Ebaugh FG: Implantation of Bacillus Acidophilus in persons with psychoses. Arch Neurol Psychiatry 9: 769-777, 1923
62)Benton D, Williams C, Brown A: Impact of consuming a milk drink containing a probiotic on mood and cognition. Eur J Clin Nutr 61: 355-361, 2007
63)Messaoudi M, Lalonde R, Violle N, Javelot H, Desor D, et al: Assessment of psychotropic-like properties of a probiotic formulation (Lactobacillus helveticus R0052 and Bifidobacterium longum R0175) in rats and human subjects. Br J Nutr 105: 755-764, 2011
64)Tillisch K, Labus J, Kilpatrick L, Jiang Z, Stains J, et al: Consumption of fermented milk product with probiotic modulates brain activity. Gastroenterology 144: 1394-1401, 2013
65)須藤信行: 心身相関研究の新たなターゲット—腸内細菌を介した脳腸相関. 久保千春(編): ここまでわかった心身相関—科学的にみたこころとからだの相互作用. 診断と治療社, 東京, 2013
66)Antonovsky A: The salutogenic model as a theory to guide health promotion. Heal Promot Int 11: 11-18, 1996
67)Damasio AR: The somatic marker hypothesis and the possible functions of the prefrontal cortex. Philos Trans R Soc Lond B Biol Sci 351: 1413-1420, 1996
68)Gaykema RP, Goehler LE, Lyte M: Brain response to cecal infection with Campylobacter jejuni: analysis with Fos immunohistochemistry. Brain Behav Immun 18: 238-245, 2004
69)Goehler LE, Gaykema RP, Opitz N, Reddaway R, Badr N, et al: Activation in vagal afferents and central autonomic pathways: early responses to intestinal infection with Campylobacter jejuni. Brain Behav Immun 19: 334-344, 2005
掲載誌情報
