TY - JOUR
T1 - Short-term dietary changes can result in mucosal and systemic immune depression
AU - Siracusa, Francesco
AU - Schaltenberg, Nicola
AU - Kumar, Yogesh
AU - Lesker, Till R.
AU - Steglich, Babett
AU - Liwinski, Timur
AU - Cortesi, Filippo
AU - Frommann, Laura
AU - Diercks, Björn Phillip
AU - Bönisch, Friedericke
AU - Fischer, Alexander W.
AU - Scognamiglio, Pasquale
AU - Pauly, Mira J.
AU - Casar, Christian
AU - Cohen, Yotam
AU - Pelczar, Penelope
AU - Agalioti, Theodora
AU - Delfs, Flemming
AU - Worthmann, Anna
AU - Wahib, Ramez
AU - Jagemann, Bettina
AU - Mittrücker, Hans Willi
AU - Kretz, Oliver
AU - Guse, Andreas H.
AU - Izbicki, Jakob R.
AU - Lassen, Kara G.
AU - Strowig, Till
AU - Schweizer, Michaela
AU - Villablanca, Eduardo J.
AU - Elinav, Eran
AU - Huber, Samuel
AU - Heeren, Joerg
AU - Gagliani, Nicola
PY - 2023/9
Y1 - 2023/9
N2 - Omnivorous animals, including mice and humans, tend to prefer energy-dense nutrients rich in fat over plant-based diets, especially for short periods of time, but the health consequences of this short-term consumption of energy-dense nutrients are unclear. Here, we show that short-term reiterative switching to ‘feast diets’, mimicking our social eating behavior, breaches the potential buffering effect of the intestinal microbiota and reorganizes the immunological architecture of mucosa-associated lymphoid tissues. The first dietary switch was sufficient to induce transient mucosal immune depression and suppress systemic immunity, leading to higher susceptibility to Salmonella enterica serovar Typhimurium and Listeria monocytogenes infections. The ability to respond to antigenic challenges with a model antigen was also impaired. These observations could be explained by a reduction of CD4+ T cell metabolic fitness and cytokine production due to impaired mTOR activity in response to reduced microbial provision of fiber metabolites. Reintroducing dietary fiber rewired T cell metabolism and restored mucosal and systemic CD4+ T cell functions and immunity. Finally, dietary intervention with human volunteers confirmed the effect of short-term dietary switches on human CD4+ T cell functionality. Therefore, short-term nutritional changes cause a transient depression of mucosal and systemic immunity, creating a window of opportunity for pathogenic infection.
AB - Omnivorous animals, including mice and humans, tend to prefer energy-dense nutrients rich in fat over plant-based diets, especially for short periods of time, but the health consequences of this short-term consumption of energy-dense nutrients are unclear. Here, we show that short-term reiterative switching to ‘feast diets’, mimicking our social eating behavior, breaches the potential buffering effect of the intestinal microbiota and reorganizes the immunological architecture of mucosa-associated lymphoid tissues. The first dietary switch was sufficient to induce transient mucosal immune depression and suppress systemic immunity, leading to higher susceptibility to Salmonella enterica serovar Typhimurium and Listeria monocytogenes infections. The ability to respond to antigenic challenges with a model antigen was also impaired. These observations could be explained by a reduction of CD4+ T cell metabolic fitness and cytokine production due to impaired mTOR activity in response to reduced microbial provision of fiber metabolites. Reintroducing dietary fiber rewired T cell metabolism and restored mucosal and systemic CD4+ T cell functions and immunity. Finally, dietary intervention with human volunteers confirmed the effect of short-term dietary switches on human CD4+ T cell functionality. Therefore, short-term nutritional changes cause a transient depression of mucosal and systemic immunity, creating a window of opportunity for pathogenic infection.
UR - http://www.scopus.com/inward/record.url?scp=85167874738&partnerID=8YFLogxK
U2 - 10.1038/s41590-023-01587-x
DO - 10.1038/s41590-023-01587-x
M3 - Article
C2 - 37580603
AN - SCOPUS:85167874738
SN - 1529-2908
VL - 24
SP - 1473
EP - 1486
JO - Nature Immunology
JF - Nature Immunology
IS - 9
ER -