Effects of persistent modulation of intestinal microbiota on SIV/HIV vaccination in rhesus macaques

Nichole R. Klatt; Courtney Broedlow; Jessica M. Osborn; Andrew T. Gustin; Sandra Dross; Megan A. O’Connor; Ernesto Coronado; Philip Barnette; Tiffany Hensley-McBain; Alexander S. Zevin; Roshell Muir; Alexander Roederer; Solomon Wangari; Naoto Iwayama; Chul Y. Ahrens; Jeremy Smedley; Cassandra Moats; Rebecca M. Lynch; Elias K. Haddad; Nancy L. Haigwood; Deborah H. Fuller; Jennifer A. Manuzak

doi:10.1038/s41541-021-00298-4

Effects of persistent modulation of intestinal microbiota on SIV/HIV vaccination in rhesus macaques

Nichole R. Klatt, Courtney Broedlow, Jessica M. Osborn, Andrew T. Gustin, Sandra Dross, Megan A. O’Connor, Ernesto Coronado, Philip Barnette, Tiffany Hensley-McBain, Alexander S. Zevin, Roshell Muir, Alexander Roederer, Solomon Wangari, Naoto Iwayama, Chul Y. Ahrens, Jeremy Smedley, Cassandra Moats, Rebecca M. Lynch, Elias K. Haddad, Nancy L. HaigwoodDeborah H. Fuller, Jennifer A. Manuzak

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Abstract

An effective vaccine to prevent HIV transmission has not yet been achieved. Modulation of the microbiome via probiotic therapy has been suggested to result in enhanced mucosal immunity. Here, we evaluated whether probiotic therapy could improve the immunogenicity and protective efficacy of SIV/HIV vaccination. Rhesus macaques were co-immunized with an SIV/HIV DNA vaccine via particle-mediated epidermal delivery and an HIV protein vaccine administered intramuscularly with Adjuplex™ adjuvant, while receiving daily oral Visbiome^® probiotics. Probiotic therapy alone led to reduced frequencies of colonic CCR5⁺ and CCR6⁺ CD4⁺ T cells. Probiotics with SIV/HIV vaccination led to similar reductions in colonic CCR5⁺ CD4⁺ T cell frequencies. SIV/HIV-specific T cell and antibody responses were readily detected in the periphery of vaccinated animals but were not enhanced with probiotic treatment. Combination probiotics and vaccination did not impact rectal SIV/HIV target populations or reduce the rate of heterologous SHIV acquisition during the intrarectal challenge. Finally, post-infection viral kinetics were similar between all groups. Thus, although probiotics were well-tolerated when administered with SIV/HIV vaccination, vaccine-specific responses were not significantly enhanced. Additional work will be necessary to develop more effective strategies of microbiome modulation in order to enhance mucosal vaccine immunogenicity and improve protective immune responses.

Original language	English (US)
Article number	34
Journal	npj Vaccines
Volume	6
Issue number	1
DOIs	https://doi.org/10.1038/s41541-021-00298-4
State	Published - Dec 2021

Bibliographical note

Funding Information:
We thank all veterinary and research support group staff of the Washington National Primate Research Center (WaNPRC) for their aid with this animal study. We thank Toni M. Gott, Charlene Miller, and Ryan K. Cheu for assistance with sample processing. We thank Dr. Que Dang of the National Institute of Allergy and Infection Diseases, National Institutes of Health for support of these studies. We thank ExeGi Pharma for the generous contribution of Visbiome® probiotics for these studies. This work was supported by grant R01AI120712 to N.R.K. The research was additionally supported in part by WaNPRC NIH core grant P51OD010425. J.A.M. was supported by grant K01OD024876.

Publisher Copyright:
© 2021, The Author(s).

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Klatt, N. R., Broedlow, C., Osborn, J. M., Gustin, A. T., Dross, S., O’Connor, M. A., Coronado, E., Barnette, P., Hensley-McBain, T., Zevin, A. S., Muir, R., Roederer, A., Wangari, S., Iwayama, N., Ahrens, C. Y., Smedley, J., Moats, C., Lynch, R. M., Haddad, E. K., ... Manuzak, J. A. (2021). Effects of persistent modulation of intestinal microbiota on SIV/HIV vaccination in rhesus macaques. npj Vaccines, 6(1), Article 34. https://doi.org/10.1038/s41541-021-00298-4

Klatt, NR, Broedlow, C, Osborn, JM, Gustin, AT, Dross, S, O’Connor, MA, Coronado, E, Barnette, P, Hensley-McBain, T, Zevin, AS, Muir, R, Roederer, A, Wangari, S, Iwayama, N, Ahrens, CY, Smedley, J, Moats, C, Lynch, RM, Haddad, EK, Haigwood, NL, Fuller, DH & Manuzak, JA 2021, 'Effects of persistent modulation of intestinal microbiota on SIV/HIV vaccination in rhesus macaques', npj Vaccines, vol. 6, no. 1, 34. https://doi.org/10.1038/s41541-021-00298-4

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title = "Effects of persistent modulation of intestinal microbiota on SIV/HIV vaccination in rhesus macaques",

abstract = "An effective vaccine to prevent HIV transmission has not yet been achieved. Modulation of the microbiome via probiotic therapy has been suggested to result in enhanced mucosal immunity. Here, we evaluated whether probiotic therapy could improve the immunogenicity and protective efficacy of SIV/HIV vaccination. Rhesus macaques were co-immunized with an SIV/HIV DNA vaccine via particle-mediated epidermal delivery and an HIV protein vaccine administered intramuscularly with Adjuplex{\texttrademark} adjuvant, while receiving daily oral Visbiome{\textregistered} probiotics. Probiotic therapy alone led to reduced frequencies of colonic CCR5+ and CCR6+ CD4+ T cells. Probiotics with SIV/HIV vaccination led to similar reductions in colonic CCR5+ CD4+ T cell frequencies. SIV/HIV-specific T cell and antibody responses were readily detected in the periphery of vaccinated animals but were not enhanced with probiotic treatment. Combination probiotics and vaccination did not impact rectal SIV/HIV target populations or reduce the rate of heterologous SHIV acquisition during the intrarectal challenge. Finally, post-infection viral kinetics were similar between all groups. Thus, although probiotics were well-tolerated when administered with SIV/HIV vaccination, vaccine-specific responses were not significantly enhanced. Additional work will be necessary to develop more effective strategies of microbiome modulation in order to enhance mucosal vaccine immunogenicity and improve protective immune responses.",

author = "Klatt, {Nichole R.} and Courtney Broedlow and Osborn, {Jessica M.} and Gustin, {Andrew T.} and Sandra Dross and O{\textquoteright}Connor, {Megan A.} and Ernesto Coronado and Philip Barnette and Tiffany Hensley-McBain and Zevin, {Alexander S.} and Roshell Muir and Alexander Roederer and Solomon Wangari and Naoto Iwayama and Ahrens, {Chul Y.} and Jeremy Smedley and Cassandra Moats and Lynch, {Rebecca M.} and Haddad, {Elias K.} and Haigwood, {Nancy L.} and Fuller, {Deborah H.} and Manuzak, {Jennifer A.}",

note = "Funding Information: We thank all veterinary and research support group staff of the Washington National Primate Research Center (WaNPRC) for their aid with this animal study. We thank Toni M. Gott, Charlene Miller, and Ryan K. Cheu for assistance with sample processing. We thank Dr. Que Dang of the National Institute of Allergy and Infection Diseases, National Institutes of Health for support of these studies. We thank ExeGi Pharma for the generous contribution of Visbiome{\textregistered} probiotics for these studies. This work was supported by grant R01AI120712 to N.R.K. The research was additionally supported in part by WaNPRC NIH core grant P51OD010425. J.A.M. was supported by grant K01OD024876. Publisher Copyright: {\textcopyright} 2021, The Author(s).",

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AU - Klatt, Nichole R.

AU - Broedlow, Courtney

AU - Osborn, Jessica M.

AU - Gustin, Andrew T.

AU - Dross, Sandra

AU - O’Connor, Megan A.

AU - Coronado, Ernesto

AU - Barnette, Philip

AU - Hensley-McBain, Tiffany

AU - Zevin, Alexander S.

AU - Muir, Roshell

AU - Roederer, Alexander

AU - Wangari, Solomon

AU - Iwayama, Naoto

AU - Ahrens, Chul Y.

AU - Smedley, Jeremy

AU - Moats, Cassandra

AU - Lynch, Rebecca M.

AU - Haddad, Elias K.

AU - Haigwood, Nancy L.

AU - Fuller, Deborah H.

AU - Manuzak, Jennifer A.

N1 - Funding Information: We thank all veterinary and research support group staff of the Washington National Primate Research Center (WaNPRC) for their aid with this animal study. We thank Toni M. Gott, Charlene Miller, and Ryan K. Cheu for assistance with sample processing. We thank Dr. Que Dang of the National Institute of Allergy and Infection Diseases, National Institutes of Health for support of these studies. We thank ExeGi Pharma for the generous contribution of Visbiome® probiotics for these studies. This work was supported by grant R01AI120712 to N.R.K. The research was additionally supported in part by WaNPRC NIH core grant P51OD010425. J.A.M. was supported by grant K01OD024876. Publisher Copyright: © 2021, The Author(s).

PY - 2021/12

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N2 - An effective vaccine to prevent HIV transmission has not yet been achieved. Modulation of the microbiome via probiotic therapy has been suggested to result in enhanced mucosal immunity. Here, we evaluated whether probiotic therapy could improve the immunogenicity and protective efficacy of SIV/HIV vaccination. Rhesus macaques were co-immunized with an SIV/HIV DNA vaccine via particle-mediated epidermal delivery and an HIV protein vaccine administered intramuscularly with Adjuplex™ adjuvant, while receiving daily oral Visbiome® probiotics. Probiotic therapy alone led to reduced frequencies of colonic CCR5+ and CCR6+ CD4+ T cells. Probiotics with SIV/HIV vaccination led to similar reductions in colonic CCR5+ CD4+ T cell frequencies. SIV/HIV-specific T cell and antibody responses were readily detected in the periphery of vaccinated animals but were not enhanced with probiotic treatment. Combination probiotics and vaccination did not impact rectal SIV/HIV target populations or reduce the rate of heterologous SHIV acquisition during the intrarectal challenge. Finally, post-infection viral kinetics were similar between all groups. Thus, although probiotics were well-tolerated when administered with SIV/HIV vaccination, vaccine-specific responses were not significantly enhanced. Additional work will be necessary to develop more effective strategies of microbiome modulation in order to enhance mucosal vaccine immunogenicity and improve protective immune responses.

AB - An effective vaccine to prevent HIV transmission has not yet been achieved. Modulation of the microbiome via probiotic therapy has been suggested to result in enhanced mucosal immunity. Here, we evaluated whether probiotic therapy could improve the immunogenicity and protective efficacy of SIV/HIV vaccination. Rhesus macaques were co-immunized with an SIV/HIV DNA vaccine via particle-mediated epidermal delivery and an HIV protein vaccine administered intramuscularly with Adjuplex™ adjuvant, while receiving daily oral Visbiome® probiotics. Probiotic therapy alone led to reduced frequencies of colonic CCR5+ and CCR6+ CD4+ T cells. Probiotics with SIV/HIV vaccination led to similar reductions in colonic CCR5+ CD4+ T cell frequencies. SIV/HIV-specific T cell and antibody responses were readily detected in the periphery of vaccinated animals but were not enhanced with probiotic treatment. Combination probiotics and vaccination did not impact rectal SIV/HIV target populations or reduce the rate of heterologous SHIV acquisition during the intrarectal challenge. Finally, post-infection viral kinetics were similar between all groups. Thus, although probiotics were well-tolerated when administered with SIV/HIV vaccination, vaccine-specific responses were not significantly enhanced. Additional work will be necessary to develop more effective strategies of microbiome modulation in order to enhance mucosal vaccine immunogenicity and improve protective immune responses.

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Effects of persistent modulation of intestinal microbiota on SIV/HIV vaccination in rhesus macaques

Abstract

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