Sialylation and fucosylation modulate inflammasome-activating eIF2 Signaling and microbial translocation during HIV infection

Leila B. Giron; Ceylan E. Tanes; Mariane H. Schleimann; Phillip A. Engen; Lisa M. Mattei; Alitzel Anzurez; Mohammad Damra; Huanjia Zhang; Kyle Bittinger; Frederic Bushman; Andrew Kossenkov; Paul W. Denton; Hiroaki Tateno; Ali Keshavarzian; Alan L. Landay; Mohamed Abdel-Mohsen

doi:10.1038/s41385-020-0279-5

Sialylation and fucosylation modulate inflammasome-activating eIF2 Signaling and microbial translocation during HIV infection

Leila B. Giron
, Ceylan E. Tanes
, Mariane H. Schleimann
, Phillip A. Engen
, Lisa M. Mattei
, Alitzel Anzurez
, Mohammad Damra
, Huanjia Zhang
, Kyle Bittinger
, Frederic Bushman
, Andrew Kossenkov
, Paul W. Denton
, Hiroaki Tateno
, Ali Keshavarzian
, Alan L. Landay
, Mohamed Abdel-Mohsen

Research output: Contribution to journal › Article › peer-review

26 Scopus citations

Abstract

An emerging paradigm suggests that gut glycosylation is a key force in maintaining the homeostatic relationship between the gut and its microbiota. Nevertheless, it is unclear how gut glycosylation contributes to the HIV-associated microbial translocation and inflammation that persist despite viral suppression and contribute to the development of several comorbidities. We examined terminal ileum, right colon, and sigmoid colon biopsies from HIV-infected virally-suppressed individuals and found that gut glycomic patterns are associated with distinct microbial compositions and differential levels of chronic inflammation and HIV persistence. In particular, high levels of the pro-inflammatory hypo-sialylated T-antigen glycans and low levels of the anti-inflammatory fucosylated glycans were associated with higher abundance of glycan-degrading microbial species (in particular, Bacteroides vulgatus), a less diverse microbiome, higher levels of inflammation, and higher levels of ileum-associated HIV DNA. These findings are linked to the activation of the inflammasome-mediating eIF2 signaling pathway. Our study thus provides the first proof-of-concept evidence that a previously unappreciated factor, gut glycosylation, is a force that may impact the vicious cycle between HIV infection, microbial translocation, and chronic inflammation.

Original language	English (US)
Pages (from-to)	753-766
Number of pages	14
Journal	Mucosal Immunology
Volume	13
Issue number	5
DOIs	https://doi.org/10.1038/s41385-020-0279-5
State	Published - Sep 1 2020
Externally published	Yes

ASJC Scopus subject areas

Immunology and Allergy
Immunology

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Giron, L. B., Tanes, C. E., Schleimann, M. H., Engen, P. A., Mattei, L. M., Anzurez, A., Damra, M., Zhang, H., Bittinger, K., Bushman, F., Kossenkov, A., Denton, P. W., Tateno, H., Keshavarzian, A., Landay, A. L., & Abdel-Mohsen, M. (2020). Sialylation and fucosylation modulate inflammasome-activating eIF2 Signaling and microbial translocation during HIV infection. Mucosal Immunology, 13(5), 753-766. https://doi.org/10.1038/s41385-020-0279-5

Giron, LB, Tanes, CE, Schleimann, MH, Engen, PA, Mattei, LM, Anzurez, A, Damra, M, Zhang, H, Bittinger, K, Bushman, F, Kossenkov, A, Denton, PW, Tateno, H, Keshavarzian, A, Landay, AL & Abdel-Mohsen, M 2020, 'Sialylation and fucosylation modulate inflammasome-activating eIF2 Signaling and microbial translocation during HIV infection', Mucosal Immunology, vol. 13, no. 5, pp. 753-766. https://doi.org/10.1038/s41385-020-0279-5

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abstract = "An emerging paradigm suggests that gut glycosylation is a key force in maintaining the homeostatic relationship between the gut and its microbiota. Nevertheless, it is unclear how gut glycosylation contributes to the HIV-associated microbial translocation and inflammation that persist despite viral suppression and contribute to the development of several comorbidities. We examined terminal ileum, right colon, and sigmoid colon biopsies from HIV-infected virally-suppressed individuals and found that gut glycomic patterns are associated with distinct microbial compositions and differential levels of chronic inflammation and HIV persistence. In particular, high levels of the pro-inflammatory hypo-sialylated T-antigen glycans and low levels of the anti-inflammatory fucosylated glycans were associated with higher abundance of glycan-degrading microbial species (in particular, Bacteroides vulgatus), a less diverse microbiome, higher levels of inflammation, and higher levels of ileum-associated HIV DNA. These findings are linked to the activation of the inflammasome-mediating eIF2 signaling pathway. Our study thus provides the first proof-of-concept evidence that a previously unappreciated factor, gut glycosylation, is a force that may impact the vicious cycle between HIV infection, microbial translocation, and chronic inflammation.",

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AU - Tanes, Ceylan E.

AU - Schleimann, Mariane H.

AU - Engen, Phillip A.

AU - Mattei, Lisa M.

AU - Anzurez, Alitzel

AU - Damra, Mohammad

AU - Zhang, Huanjia

AU - Bittinger, Kyle

AU - Bushman, Frederic

AU - Kossenkov, Andrew

AU - Denton, Paul W.

AU - Tateno, Hiroaki

AU - Keshavarzian, Ali

AU - Landay, Alan L.

AU - Abdel-Mohsen, Mohamed

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N2 - An emerging paradigm suggests that gut glycosylation is a key force in maintaining the homeostatic relationship between the gut and its microbiota. Nevertheless, it is unclear how gut glycosylation contributes to the HIV-associated microbial translocation and inflammation that persist despite viral suppression and contribute to the development of several comorbidities. We examined terminal ileum, right colon, and sigmoid colon biopsies from HIV-infected virally-suppressed individuals and found that gut glycomic patterns are associated with distinct microbial compositions and differential levels of chronic inflammation and HIV persistence. In particular, high levels of the pro-inflammatory hypo-sialylated T-antigen glycans and low levels of the anti-inflammatory fucosylated glycans were associated with higher abundance of glycan-degrading microbial species (in particular, Bacteroides vulgatus), a less diverse microbiome, higher levels of inflammation, and higher levels of ileum-associated HIV DNA. These findings are linked to the activation of the inflammasome-mediating eIF2 signaling pathway. Our study thus provides the first proof-of-concept evidence that a previously unappreciated factor, gut glycosylation, is a force that may impact the vicious cycle between HIV infection, microbial translocation, and chronic inflammation.

AB - An emerging paradigm suggests that gut glycosylation is a key force in maintaining the homeostatic relationship between the gut and its microbiota. Nevertheless, it is unclear how gut glycosylation contributes to the HIV-associated microbial translocation and inflammation that persist despite viral suppression and contribute to the development of several comorbidities. We examined terminal ileum, right colon, and sigmoid colon biopsies from HIV-infected virally-suppressed individuals and found that gut glycomic patterns are associated with distinct microbial compositions and differential levels of chronic inflammation and HIV persistence. In particular, high levels of the pro-inflammatory hypo-sialylated T-antigen glycans and low levels of the anti-inflammatory fucosylated glycans were associated with higher abundance of glycan-degrading microbial species (in particular, Bacteroides vulgatus), a less diverse microbiome, higher levels of inflammation, and higher levels of ileum-associated HIV DNA. These findings are linked to the activation of the inflammasome-mediating eIF2 signaling pathway. Our study thus provides the first proof-of-concept evidence that a previously unappreciated factor, gut glycosylation, is a force that may impact the vicious cycle between HIV infection, microbial translocation, and chronic inflammation.

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Sialylation and fucosylation modulate inflammasome-activating eIF2 Signaling and microbial translocation during HIV infection

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