Surfactant protein A impairs genital HPV16 pseudovirus infection by innate immune cell activation in a murine model
Surfactant protein A impairs genital HPV16 pseudovirus infection by innate immune cell activation in a murine model
Infection by oncogenic human papillomavirus (HPV) is the principle cause of cervical cancer and other anogenital cancers. The majority of cervical cancer cases occur in low- and middle-income countries (LMIC). Prophylactic vaccines exist to combat HPV infection but accessibility to these in LMIC is limited. Alternative preventative measures against HPV infection are therefore also needed to control cervical cancer risk. HPV employs multiple mechanisms to evade the host immune response. Therefore, an approach to promote HPV recognition by the immune system can reduce infection. Surfactant proteins A and D (SP-A and SP-D) are highly effective innate opsonins of pathogens. Their function is primarily understood in the lung, but they are also expressed at other sites of the body, including the female reproductive tract (FRT). We hypothesized that raised levels of SP-A and/or SP-D may enhance immune recognition of HPV and reduce infection. Co-immunoprecipitation and flow cytometry experiments showed that purified human SP-A protein directly bound HPV16 pseudovirions (HPV16-PsVs), and the resulting HPV16-PsVs/SP-A complex enhanced uptake of HPV16-PsVs by RAW264.7 murine macrophages. In contrast, a recombinant fragment of human SP-D bound HPV16-PsVs weakly and had no effect on viral uptake. To assess if SP-A modulates HPV16-PsVs infection in vivo, a murine cervicovaginal challenge model was applied. Surprisingly, neither naïve nor C57BL/6 mice challenged with HPV16-PsVs expressed SP-A in the FRT. However, pre-incubation of HPV16-PsVs with purified human SP-A at a 1:10 (w/w) ratio significantly reduced the level of HPV16-PsV infection. When isolated cells from FRTs of naïve C57BL/6 mice were incubated with HPV16-PsVs and stained for selected innate immune cell populations by flow cytometry, significant increases in HPV16-PsVs uptake by eosinophils, neutrophils, monocytes, and macrophages were observed over time using SP-A-pre-adsorbed virions compared to control particles. This study is the first to describe a biochemical and functional association of HPV16 virions with the innate immune molecule SP-A. We show that SP-A impairs HPV16-PsVs infection and propose that SP-A is a potential candidate for use in topical microbicides which provide protection against new HPV infections.
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Ujma, Sylvia
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Carse, Sinead
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Chetty, Alisha
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Horsnell, William
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Clark, Howard
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Madsen, Jens
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Mackay, Rose-Marie
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Watson, Alastair
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Griffiths, Mark
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Katz, Arieh A.
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Schäfer, Georgia
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6 December 2019
Ujma, Sylvia
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Carse, Sinead
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Chetty, Alisha
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Horsnell, William
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Clark, Howard
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Madsen, Jens
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Mackay, Rose-Marie
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Watson, Alastair
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Griffiths, Mark
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Katz, Arieh A.
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Schäfer, Georgia
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Ujma, Sylvia, Carse, Sinead, Chetty, Alisha, Horsnell, William, Clark, Howard, Madsen, Jens, Mackay, Rose-Marie, Watson, Alastair, Griffiths, Mark, Katz, Arieh A. and Schäfer, Georgia
(2019)
Surfactant protein A impairs genital HPV16 pseudovirus infection by innate immune cell activation in a murine model.
Pathogens, 8 (4), .
(doi:10.3390/pathogens8040288).
Abstract
Infection by oncogenic human papillomavirus (HPV) is the principle cause of cervical cancer and other anogenital cancers. The majority of cervical cancer cases occur in low- and middle-income countries (LMIC). Prophylactic vaccines exist to combat HPV infection but accessibility to these in LMIC is limited. Alternative preventative measures against HPV infection are therefore also needed to control cervical cancer risk. HPV employs multiple mechanisms to evade the host immune response. Therefore, an approach to promote HPV recognition by the immune system can reduce infection. Surfactant proteins A and D (SP-A and SP-D) are highly effective innate opsonins of pathogens. Their function is primarily understood in the lung, but they are also expressed at other sites of the body, including the female reproductive tract (FRT). We hypothesized that raised levels of SP-A and/or SP-D may enhance immune recognition of HPV and reduce infection. Co-immunoprecipitation and flow cytometry experiments showed that purified human SP-A protein directly bound HPV16 pseudovirions (HPV16-PsVs), and the resulting HPV16-PsVs/SP-A complex enhanced uptake of HPV16-PsVs by RAW264.7 murine macrophages. In contrast, a recombinant fragment of human SP-D bound HPV16-PsVs weakly and had no effect on viral uptake. To assess if SP-A modulates HPV16-PsVs infection in vivo, a murine cervicovaginal challenge model was applied. Surprisingly, neither naïve nor C57BL/6 mice challenged with HPV16-PsVs expressed SP-A in the FRT. However, pre-incubation of HPV16-PsVs with purified human SP-A at a 1:10 (w/w) ratio significantly reduced the level of HPV16-PsV infection. When isolated cells from FRTs of naïve C57BL/6 mice were incubated with HPV16-PsVs and stained for selected innate immune cell populations by flow cytometry, significant increases in HPV16-PsVs uptake by eosinophils, neutrophils, monocytes, and macrophages were observed over time using SP-A-pre-adsorbed virions compared to control particles. This study is the first to describe a biochemical and functional association of HPV16 virions with the innate immune molecule SP-A. We show that SP-A impairs HPV16-PsVs infection and propose that SP-A is a potential candidate for use in topical microbicides which provide protection against new HPV infections.
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Surfactant Protein A Impairs Genital HPV16
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Accepted/In Press date: 4 December 2019
Published date: 6 December 2019
Identifiers
Local EPrints ID: 441731
URI: http://eprints.soton.ac.uk/id/eprint/441731
ISSN: 2076-0817
PURE UUID: 82fa90ea-1abe-405e-b0cc-a2afee184277
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Date deposited: 25 Jun 2020 16:37
Last modified: 16 Mar 2024 08:18
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Author:
Sylvia Ujma
Author:
Sinead Carse
Author:
Alisha Chetty
Author:
William Horsnell
Author:
Howard Clark
Author:
Jens Madsen
Author:
Rose-Marie Mackay
Author:
Alastair Watson
Author:
Mark Griffiths
Author:
Arieh A. Katz
Author:
Georgia Schäfer
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