Diet-derived metabolites and mucus link the gut microbiome to fever after cytotoxic cancer treatment

Zaker I. Schwabkey; Diana H. Wiesnoski; Chia Chi Chang; Wen Bin Tsai; Dung Pham; Saira S. Ahmed; Tomo Hayase; Miriam R. Ortega Turrubiates; Rawan K. El-Himri; Christopher A. Sanchez; Eiko Hayase; Annette C. Frenk Oquendo; Takahiko Miyama; Taylor M. Halsey; Brooke E. Heckel; Alexandria N. Brown; Yimei Jin; Mathilde Raybaud; Rishika Prasad; Ivonne Flores; Lauren McDaniel; Valerie Chapa; Philip L. Lorenzi; Marc O. Warmoes; Lin Tan; Alton G. Swennes; Stephanie Fowler; Margaret Conner; Kevin McHugh; Tyler Graf; Vanessa B. Jensen; Christine B. Peterson; Kim Anh Do; Liangliang Zhang; Yushu Shi; Yinghong Wang; Jessica R. Galloway-Pena; Pablo C. Okhuysen; Carrie R. Daniel-MacDougall; Yusuke Shono; Marina Burgos da Silva; Jonathan U. Peled; Marcel R.M. van den Brink; Nadim Ajami; Jennifer A. Wargo; Pavan Reddy; Raphael H. Valdivia; Lauren Davey; Gabriela Rondon; Samer A. Srour; Rohtesh S. Mehta; Amin M. Alousi; Elizabeth J. Shpall; Richard E. Champlin; Samuel A. Shelburne; Jeffrey J. Molldrem; Mohamed A. Jamal; Jennifer L. Karmouch; Robert R. Jenq

doi:10.1126/scitranslmed.abo3445

Diet-derived metabolites and mucus link the gut microbiome to fever after cytotoxic cancer treatment

Zaker I. Schwabkey, Diana H. Wiesnoski, Chia Chi Chang, Wen Bin Tsai, Dung Pham, Saira S. Ahmed, Tomo Hayase, Miriam R. Ortega Turrubiates, Rawan K. El-Himri, Christopher A. Sanchez, Eiko Hayase, Annette C. Frenk Oquendo, Takahiko Miyama, Taylor M. Halsey, Brooke E. Heckel, Alexandria N. Brown, Yimei Jin, Mathilde Raybaud, Rishika Prasad, Ivonne FloresLauren McDaniel, Valerie Chapa, Philip L. Lorenzi, Marc O. Warmoes, Lin Tan, Alton G. Swennes, Stephanie Fowler, Margaret Conner, Kevin McHugh, Tyler Graf, Vanessa B. Jensen, Christine B. Peterson, Kim Anh Do, Liangliang Zhang, Yushu Shi, Yinghong Wang, Jessica R. Galloway-Pena, Pablo C. Okhuysen, Carrie R. Daniel-MacDougall, Yusuke Shono, Marina Burgos da Silva, Jonathan U. Peled, Marcel R.M. van den Brink, Nadim Ajami, Jennifer A. Wargo, Pavan Reddy, Raphael H. Valdivia, Lauren Davey, Gabriela Rondon, Samer A. Srour, Rohtesh S. Mehta, Amin M. Alousi, Elizabeth J. Shpall, Richard E. Champlin, Samuel A. Shelburne, Jeffrey J. Molldrem, Mohamed A. Jamal, Jennifer L. Karmouch, Robert R. Jenq

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Abstract

Not all patients with cancer and severe neutropenia develop fever, and the fecal microbiome may play a role. In a single-center study of patients undergoing hematopoietic cell transplant (n = 119), the fecal microbiome was characterized at onset of severe neutropenia. A total of 63 patients (53%) developed a subsequent fever, and their fecal microbiome displayed increased relative abundances of Akkermansia muciniphila, a species of mucin-degrading bacteria (P = 0.006, corrected for multiple comparisons). Two therapies that induce neutropenia, irradiation and melphalan, similarly expanded A. muciniphila and additionally thinned the colonic mucus layer in mice. Caloric restriction of unirradiated mice also expanded A. muciniphilaand thinned the colonic mucus layer. Antibiotic treatment to eradicate A. muciniphila before caloric restriction preserved colonic mucus, whereas A. muciniphila reintroduction restored mucus thinning. Caloric restriction of unirradiated mice raised colonic luminal pH and reduced acetate, propionate, and butyrate. Culturing A. muciniphila in vitro with propionate reduced utilization of mucin as well as of fucose. Treating irradiated mice with an antibiotic targeting A. muciniphila or propionate preserved the mucus layer, suppressed translocation of flagellin, reduced inflammatory cytokines in the colon, and improved thermoregulation. These results suggest that diet, metabolites, and colonic mucus link the microbiome to neutropenic fever and may guide future microbiome-based preventive strategies.

Original language	English (US)
Article number	eabo3445
Journal	Science translational medicine
Volume	14
Issue number	671
DOIs	https://doi.org/10.1126/scitranslmed.abo3445
State	Published - Nov 16 2022

ASJC Scopus subject areas

General Medicine

MD Anderson CCSG core facilities

Research Animal Support Facility
Biostatistics Resource Group
Bioinformatics Shared Resource
Metabolomics Facility
Bionutrition Research Core
Flow Cytometry and Cellular Imaging Facility

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10.1126/scitranslmed.abo3445

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Schwabkey, Z. I., Wiesnoski, D. H., Chang, C. C., Tsai, W. B., Pham, D., Ahmed, S. S., Hayase, T., Ortega Turrubiates, M. R., El-Himri, R. K., Sanchez, C. A., Hayase, E., Frenk Oquendo, A. C., Miyama, T., Halsey, T. M., Heckel, B. E., Brown, A. N., Jin, Y., Raybaud, M., Prasad, R., ... Jenq, R. R. (2022). Diet-derived metabolites and mucus link the gut microbiome to fever after cytotoxic cancer treatment. Science translational medicine, 14(671), Article eabo3445. https://doi.org/10.1126/scitranslmed.abo3445

Schwabkey, ZI, Wiesnoski, DH, Chang, CC , Tsai, WB, Pham, D, Ahmed, SS, Hayase, T, Ortega Turrubiates, MR, El-Himri, RK, Sanchez, CA, Hayase, E, Frenk Oquendo, AC, Miyama, T, Halsey, TM, Heckel, BE, Brown, AN, Jin, Y, Raybaud, M, Prasad, R, Flores, I, McDaniel, L, Chapa, V, Lorenzi, PL, Warmoes, MO, Tan, L, Swennes, AG, Fowler, S, Conner, M, McHugh, K, Graf, T, Jensen, VB , Peterson, CB , Do, KA, Zhang, L, Shi, Y, Wang, Y, Galloway-Pena, JR, Okhuysen, PC , Daniel-MacDougall, CR, Shono, Y, da Silva, MB, Peled, JU, van den Brink, MRM, Ajami, N, Wargo, JA, Reddy, P, Valdivia, RH, Davey, L, Rondon, G , Srour, SA, Mehta, RS, Alousi, AM , Shpall, EJ , Champlin, RE , Shelburne, SA , Molldrem, JJ , Jamal, MA , Karmouch, JL & Jenq, RR 2022, 'Diet-derived metabolites and mucus link the gut microbiome to fever after cytotoxic cancer treatment', Science translational medicine, vol. 14, no. 671, eabo3445. https://doi.org/10.1126/scitranslmed.abo3445

@article{4a19d6dc91e44f86bed699621a19faa4,

title = "Diet-derived metabolites and mucus link the gut microbiome to fever after cytotoxic cancer treatment",

abstract = "Not all patients with cancer and severe neutropenia develop fever, and the fecal microbiome may play a role. In a single-center study of patients undergoing hematopoietic cell transplant (n = 119), the fecal microbiome was characterized at onset of severe neutropenia. A total of 63 patients (53%) developed a subsequent fever, and their fecal microbiome displayed increased relative abundances of Akkermansia muciniphila, a species of mucin-degrading bacteria (P = 0.006, corrected for multiple comparisons). Two therapies that induce neutropenia, irradiation and melphalan, similarly expanded A. muciniphila and additionally thinned the colonic mucus layer in mice. Caloric restriction of unirradiated mice also expanded A. muciniphilaand thinned the colonic mucus layer. Antibiotic treatment to eradicate A. muciniphila before caloric restriction preserved colonic mucus, whereas A. muciniphila reintroduction restored mucus thinning. Caloric restriction of unirradiated mice raised colonic luminal pH and reduced acetate, propionate, and butyrate. Culturing A. muciniphila in vitro with propionate reduced utilization of mucin as well as of fucose. Treating irradiated mice with an antibiotic targeting A. muciniphila or propionate preserved the mucus layer, suppressed translocation of flagellin, reduced inflammatory cytokines in the colon, and improved thermoregulation. These results suggest that diet, metabolites, and colonic mucus link the microbiome to neutropenic fever and may guide future microbiome-based preventive strategies.",

author = "Schwabkey, {Zaker I.} and Wiesnoski, {Diana H.} and Chang, {Chia Chi} and Tsai, {Wen Bin} and Dung Pham and Ahmed, {Saira S.} and Tomo Hayase and {Ortega Turrubiates}, {Miriam R.} and El-Himri, {Rawan K.} and Sanchez, {Christopher A.} and Eiko Hayase and {Frenk Oquendo}, {Annette C.} and Takahiko Miyama and Halsey, {Taylor M.} and Heckel, {Brooke E.} and Brown, {Alexandria N.} and Yimei Jin and Mathilde Raybaud and Rishika Prasad and Ivonne Flores and Lauren McDaniel and Valerie Chapa and Lorenzi, {Philip L.} and Warmoes, {Marc O.} and Lin Tan and Swennes, {Alton G.} and Stephanie Fowler and Margaret Conner and Kevin McHugh and Tyler Graf and Jensen, {Vanessa B.} and Peterson, {Christine B.} and Do, {Kim Anh} and Liangliang Zhang and Yushu Shi and Yinghong Wang and Galloway-Pena, {Jessica R.} and Okhuysen, {Pablo C.} and Daniel-MacDougall, {Carrie R.} and Yusuke Shono and {da Silva}, {Marina Burgos} and Peled, {Jonathan U.} and {van den Brink}, {Marcel R.M.} and Nadim Ajami and Wargo, {Jennifer A.} and Pavan Reddy and Valdivia, {Raphael H.} and Lauren Davey and Gabriela Rondon and Srour, {Samer A.} and Mehta, {Rohtesh S.} and Alousi, {Amin M.} and Shpall, {Elizabeth J.} and Champlin, {Richard E.} and Shelburne, {Samuel A.} and Molldrem, {Jeffrey J.} and Jamal, {Mohamed A.} and Karmouch, {Jennifer L.} and Jenq, {Robert R.}",

note = "Publisher Copyright: Copyright {\textcopyright} 2022 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.",

year = "2022",

month = nov,

day = "16",

doi = "10.1126/scitranslmed.abo3445",

language = "English (US)",

volume = "14",

journal = "Science translational medicine",

issn = "1946-6234",

publisher = "American Association for the Advancement of Science",

number = "671",

}

TY - JOUR

T1 - Diet-derived metabolites and mucus link the gut microbiome to fever after cytotoxic cancer treatment

AU - Schwabkey, Zaker I.

AU - Wiesnoski, Diana H.

AU - Chang, Chia Chi

AU - Tsai, Wen Bin

AU - Pham, Dung

AU - Ahmed, Saira S.

AU - Hayase, Tomo

AU - Ortega Turrubiates, Miriam R.

AU - El-Himri, Rawan K.

AU - Sanchez, Christopher A.

AU - Hayase, Eiko

AU - Frenk Oquendo, Annette C.

AU - Miyama, Takahiko

AU - Halsey, Taylor M.

AU - Heckel, Brooke E.

AU - Brown, Alexandria N.

AU - Jin, Yimei

AU - Raybaud, Mathilde

AU - Prasad, Rishika

AU - Flores, Ivonne

AU - McDaniel, Lauren

AU - Chapa, Valerie

AU - Lorenzi, Philip L.

AU - Warmoes, Marc O.

AU - Tan, Lin

AU - Swennes, Alton G.

AU - Fowler, Stephanie

AU - Conner, Margaret

AU - McHugh, Kevin

AU - Graf, Tyler

AU - Jensen, Vanessa B.

AU - Peterson, Christine B.

AU - Do, Kim Anh

AU - Zhang, Liangliang

AU - Shi, Yushu

AU - Wang, Yinghong

AU - Galloway-Pena, Jessica R.

AU - Okhuysen, Pablo C.

AU - Daniel-MacDougall, Carrie R.

AU - Shono, Yusuke

AU - da Silva, Marina Burgos

AU - Peled, Jonathan U.

AU - van den Brink, Marcel R.M.

AU - Ajami, Nadim

AU - Wargo, Jennifer A.

AU - Reddy, Pavan

AU - Valdivia, Raphael H.

AU - Davey, Lauren

AU - Rondon, Gabriela

AU - Srour, Samer A.

AU - Mehta, Rohtesh S.

AU - Alousi, Amin M.

AU - Shpall, Elizabeth J.

AU - Champlin, Richard E.

AU - Shelburne, Samuel A.

AU - Molldrem, Jeffrey J.

AU - Jamal, Mohamed A.

AU - Karmouch, Jennifer L.

AU - Jenq, Robert R.

PY - 2022/11/16

Y1 - 2022/11/16

N2 - Not all patients with cancer and severe neutropenia develop fever, and the fecal microbiome may play a role. In a single-center study of patients undergoing hematopoietic cell transplant (n = 119), the fecal microbiome was characterized at onset of severe neutropenia. A total of 63 patients (53%) developed a subsequent fever, and their fecal microbiome displayed increased relative abundances of Akkermansia muciniphila, a species of mucin-degrading bacteria (P = 0.006, corrected for multiple comparisons). Two therapies that induce neutropenia, irradiation and melphalan, similarly expanded A. muciniphila and additionally thinned the colonic mucus layer in mice. Caloric restriction of unirradiated mice also expanded A. muciniphilaand thinned the colonic mucus layer. Antibiotic treatment to eradicate A. muciniphila before caloric restriction preserved colonic mucus, whereas A. muciniphila reintroduction restored mucus thinning. Caloric restriction of unirradiated mice raised colonic luminal pH and reduced acetate, propionate, and butyrate. Culturing A. muciniphila in vitro with propionate reduced utilization of mucin as well as of fucose. Treating irradiated mice with an antibiotic targeting A. muciniphila or propionate preserved the mucus layer, suppressed translocation of flagellin, reduced inflammatory cytokines in the colon, and improved thermoregulation. These results suggest that diet, metabolites, and colonic mucus link the microbiome to neutropenic fever and may guide future microbiome-based preventive strategies.

AB - Not all patients with cancer and severe neutropenia develop fever, and the fecal microbiome may play a role. In a single-center study of patients undergoing hematopoietic cell transplant (n = 119), the fecal microbiome was characterized at onset of severe neutropenia. A total of 63 patients (53%) developed a subsequent fever, and their fecal microbiome displayed increased relative abundances of Akkermansia muciniphila, a species of mucin-degrading bacteria (P = 0.006, corrected for multiple comparisons). Two therapies that induce neutropenia, irradiation and melphalan, similarly expanded A. muciniphila and additionally thinned the colonic mucus layer in mice. Caloric restriction of unirradiated mice also expanded A. muciniphilaand thinned the colonic mucus layer. Antibiotic treatment to eradicate A. muciniphila before caloric restriction preserved colonic mucus, whereas A. muciniphila reintroduction restored mucus thinning. Caloric restriction of unirradiated mice raised colonic luminal pH and reduced acetate, propionate, and butyrate. Culturing A. muciniphila in vitro with propionate reduced utilization of mucin as well as of fucose. Treating irradiated mice with an antibiotic targeting A. muciniphila or propionate preserved the mucus layer, suppressed translocation of flagellin, reduced inflammatory cytokines in the colon, and improved thermoregulation. These results suggest that diet, metabolites, and colonic mucus link the microbiome to neutropenic fever and may guide future microbiome-based preventive strategies.

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DO - 10.1126/scitranslmed.abo3445

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SN - 1946-6234

VL - 14

JO - Science translational medicine

JF - Science translational medicine

IS - 671

M1 - eabo3445

ER -

Diet-derived metabolites and mucus link the gut microbiome to fever after cytotoxic cancer treatment

Abstract

ASJC Scopus subject areas

MD Anderson CCSG core facilities

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