Barak B, Feng G. Neurobiology of social behavior abnormalities in autism and Williams syndrome. Nat Neurosci. 2016;19:647–55.
Article CAS PubMed PubMed Central Google Scholar
Kaidanovich-Beilin O, Lipina T, Vukobradovic I, Roder J, Woodgett JR. Assessment of social interaction behaviors. J Vis Exp. 2011;25(48):e2473.
Hawkley LC, Cacioppo JT. Loneliness matters: a theoretical and empirical review of consequences and mechanisms. Ann Behav Med. 2010;40:218–27.
Baumeister RF, Leary MR. The need to belong: desire for interpersonal attachments as a fundamental human motivation. Psychol Bull. 1995;117:497–529.
Article CAS PubMed Google Scholar
Berkman LF, Glass T, Brissette I, Seeman TE. From social integration to health: Durkheim in the new millennium. Soc Sci Med. 2000;51:843–57.
Article CAS PubMed Google Scholar
Caplan B, Morgan JE, Noroña AN, Tung I, Lee SS, Baker BL. The nature and nurture of social development: the role of 5-HTTLPR and gene-parenting interactions. J Fam Psychol. 2019;33:927–37.
Article PubMed PubMed Central Google Scholar
Eisenberger NI, Moieni M, Inagaki TK, Muscatell KA, Irwin MR. In sickness and in health: the co-regulation of inflammation and social behavior. Neuropsychopharmacology. 2017;42:242–53.
Article CAS PubMed Google Scholar
Moieni M, Eisenberger NI. Effects of inflammation on social processes and implications for health. Ann N Y Acad Sci. 2018;1428:5–13.
Article PubMed PubMed Central Google Scholar
Eisenberger NI, Inagaki TK, Mashal NM, Irwin MR. Inflammation and social experience: an inflammatory challenge induces feelings of social disconnection in addition to depressed mood. Brain Behav Immun. 2010;24:558–63.
Article PubMed PubMed Central Google Scholar
Pace TWW, Mletzko TC, Alagbe O, Musselman DL, Nemeroff CB, Miller AH, et al. Increased stress-induced inflammatory responses in male patients with major depression and increased early life stress. Am J Psychiatry. 2006;163:1630–3.
Reichenberg A, Yirmiya R, Schuld A, Kraus T, Haack M, Morag A, et al. Cytokine-associated emotional and cognitive disturbances in humans. Arch Gen Psychiatry. 2001;58:445–52.
Article CAS PubMed Google Scholar
Schneider KM, Blank N, Alvarez Y, Thum K, Lundgren P, Litichevskiy L, et al. The enteric nervous system relays psychological stress to intestinal inflammation. Cell. 2023;186:2823-2838.e20.
Article CAS PubMed Google Scholar
Vernier CL, Chin IM, Adu-Oppong B, Krupp JJ, Levine J, Dantas G, et al. The gut microbiome defines social group membership in honey bee colonies. Sci Adv. 2020;6(42):eabd3431.
Article CAS PubMed PubMed Central Google Scholar
Desbonnet L, Clarke G, Shanahan F, Dinan TG, Cryan JF. Microbiota is essential for social development in the mouse. Mol Psychiatry. 2014;19:146–8.
Article CAS PubMed Google Scholar
McGaughey KD, Yilmaz-Swenson T, Elsayed NM, Cruz DA, Rodriguiz RM, Kritzer MD, et al. Relative abundance of Akkermansia spp. and other bacterial phylotypes correlates with anxiety- and depressive-like behavior following social defeat in mice. Sci Rep. 2019;9:3281.
Article PubMed PubMed Central Google Scholar
Degroote S, Hunting DJ, Baccarelli AA, Takser L. Maternal gut and fetal brain connection: increased anxiety and reduced social interactions in Wistar rat offspring following peri-conceptional antibiotic exposure. Prog Neuropsychopharmacol Biol Psychiatry. 2016;71:76–82.
Article CAS PubMed PubMed Central Google Scholar
Wu H-J, Wu E. The role of gut microbiota in immune homeostasis and autoimmunity. Gut Microbes. 2012;3:4–14.
Article PubMed PubMed Central Google Scholar
Östman S, Rask C, Wold AE, Hultkrantz S, Telemo E. Impaired regulatory T cell function in germ-free mice. Eur J Immunol. 2006;36:2336–46.
Geuking MB, Cahenzli J, Lawson MAE, Ng DCK, Slack E, Hapfelmeier S, et al. Intestinal bacterial colonization induces mutualistic regulatory T cell responses. Immunity. 2011;34:794–806.
Article CAS PubMed Google Scholar
Furusawa Y, Obata Y, Fukuda S, Endo TA, Nakato G, Takahashi D, et al. Commensal microbe-derived butyrate induces the differentiation of colonic regulatory T cells. Nature. 2013;504:446–50.
Article CAS PubMed Google Scholar
Buffington SA, Di Prisco GV, Auchtung TA, Ajami NJ, Petrosino JF, Costa-Mattioli M. Microbial reconstitution reverses maternal diet-induced social and synaptic deficits in offspring. Cell. 2016;165:1762–75.
Article CAS PubMed PubMed Central Google Scholar
Romano-Keeler J, Moore DJ, Wang C, Brucker RM, Fonnesbeck C, Slaughter JC, et al. Early life establishment of site-specific microbial communities in the gut. Gut Microbes. 2014;5:192–201.
Article PubMed PubMed Central Google Scholar
Feder Y, Nesher E, Ogran A, Kreinin A, Malatynska E, Yadid G, et al. Selective breeding for dominant and submissive behavior in Sabra mice. J Affect Disord. 2010;126:214–22.
Gross M, Sheinin A, Nesher E, Tikhonov T, Baranes D, Pinhasov A, et al. Early onset of cognitive impairment is associated with altered synaptic plasticity and enhanced hippocampal GluA1 expression in a mouse model of depression. Neurobiol Aging. 2015;36:1938–52.
Article CAS PubMed Google Scholar
Gross M, Pinhasov A. Chronic mild stress in submissive mice: marked polydipsia and social avoidance without hedonic deficit in the sucrose preference test. Behav Brain Res. 2016;298 Pt B:25–34.
Gross M, Romi H, Miller A, Pinhasov A. Social dominance predicts hippocampal glucocorticoid receptor recruitment and resilience to prenatal adversity. Sci Rep. 2018;8:9595.
Article PubMed PubMed Central Google Scholar
Bairachnaya M, Agranyoni O, Antoch M, Michaelevski I, Pinhasov A. Innate sensitivity to stress facilitates inflammation, alters metabolism and shortens lifespan in a mouse model of social hierarchy. Aging (Albany NY). 2019;11:9901–11.
Article CAS PubMed Google Scholar
Agranyoni O, Meninger-Mordechay S, Uzan A, Ziv O, Salmon-Divon M, Rodin D, et al. Gut microbiota determines the social behavior of mice and induces metabolic and inflammatory changes in their adipose tissue. NPJ Biofilms Microbiomes. 2021;7:28.
Article CAS PubMed PubMed Central Google Scholar
Kim Y, West GA, Ray G, Kessler SP, Petrey AC, Fiocchi C, et al. Layilin is critical for mediating hyaluronan 35 kDa-induced intestinal epithelial tight junction protein ZO-1 in vitro and in vivo. Matrix Biol. 2018;66:93–109.
Article CAS PubMed Google Scholar
Nesher E, Gross M, Lisson S, Tikhonov T, Yadid G, Pinhasov A. Differential responses to distinct psychotropic agents of selectively bred dominant and submissive animals. Behav Brain Res. 2013;236:225–35.
Article CAS PubMed Google Scholar
Can A, Dao DT, Arad M, Terrillion CE, Piantadosi SC, Gould TD. The mouse forced swim test. J Vis Exp. 2012;29(59):e3638.
Walf AA, Frye CA. The use of the elevated plus maze as an assay of anxiety-related behavior in rodents. Nat Protoc. 2007;2:322–8.
Article CAS PubMed PubMed Central Google Scholar
Bolyen E, Rideout JR, Dillon MR, Bokulich NA, Abnet CC, Al-Ghalith GA, et al. Reproducible, interactive, scalable and extensible microbiome data science using QIIME 2. Nat Biotechnol. 2019;37:852–7.
Article CAS PubMed PubMed Central Google Scholar
Callahan BJ, McMurdie PJ, Rosen MJ, Han AW, Johnson AJA, Holmes SP. DADA2: high-resolution sample inference from Illumina amplicon data. Nat Methods. 2016;13:581–3.
Article CAS PubMed PubMed Central Google Scholar
Katoh K, Misawa K, Kuma K, Miyata T. MAFFT: a novel method for rapid multiple sequence alignment based on fast Fourier transform. Nucleic Acids Res. 2002;30:3059–66.
Article CAS PubMed PubMed Central Google Scholar
Price MN, Dehal PS, Arkin AP. FastTree 2 – approximately maximum-likelihood trees for large alignments. PLoS One. 2010;5:e9490.
Article PubMed PubMed Central Google Scholar
Bokulich NA, Kaehler BD, Rideout JR, Dillon M, Bolyen E, Knight R, et al. Optimizing taxonomic classification of marker-gene amplicon sequences with QIIME 2’s q2-feature-classifier plugin. Microbiome. 2018;6:90.
留言 (0)