Functional Genomic Analysis of the Response of HIV-1-Infected Lymphatic Tissue to Antiretroviral Therapy

Qingsheng Li; Timothy W Schacker; John V Carlis; Gregory J Beilman; Phuong Nguyen; Ashley T Haase

doi:10.1086/381396

Functional Genomic Analysis of the Response of HIV-1-Infected Lymphatic Tissue to Antiretroviral Therapy

Qingsheng Li, Timothy W Schacker, John V Carlis, Gregory J Beilman, Phuong Nguyen, Ashley T Haase

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Abstract

Highly active antiretroviral therapy (HAART) curtails human immunodeficiency virus type 1 (HIV-1) replication in lymphatic tissues and partially reverses the pathological damage associated with infection, but the genes that mediate these pathological and reparative processes remain largely unknown. To identify these genes, we used microarrays to profile gene expression in serial lymph node biopsy specimens obtained before and after treatment. We discovered ∼200 treatment-responsive genes, many of them known mediators and moderators of immune activation and defenses, particularly innate defense genes, which, surprisingly, were expressed at all stages of HIV-1 infection. Most of the rest of the treatment-responsive genes we categorized as mediators of trafficking, reformation of active follicles, and tissue repair. We propose a model in which nearly counterbalanced functions of mediators and moderators of immune activation and defenses account for the slow dynamics of HIV-1 infection before treatment. This model suggests that there could be a role for anti-inflammatory agents, alone or in combination with HAART, in treating HIV-1 infection by tipping this balance to mitigate pathology.

Original language	English (US)
Pages (from-to)	572-582
Number of pages	11
Journal	Journal of Infectious Diseases
Volume	189
Issue number	4
DOIs	https://doi.org/10.1086/381396
State	Published - Feb 15 2004

Bibliographical note

Funding Information:
Financial support: National Institutes of Health (grants R37 AI28246, R01 AI56997, R01 AI54232, K24 AI56986, and R01 DE12934); Great Lakes Regional Center for AIDS Research (grant P30 CA79458).

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title = "Functional Genomic Analysis of the Response of HIV-1-Infected Lymphatic Tissue to Antiretroviral Therapy",

abstract = "Highly active antiretroviral therapy (HAART) curtails human immunodeficiency virus type 1 (HIV-1) replication in lymphatic tissues and partially reverses the pathological damage associated with infection, but the genes that mediate these pathological and reparative processes remain largely unknown. To identify these genes, we used microarrays to profile gene expression in serial lymph node biopsy specimens obtained before and after treatment. We discovered ∼200 treatment-responsive genes, many of them known mediators and moderators of immune activation and defenses, particularly innate defense genes, which, surprisingly, were expressed at all stages of HIV-1 infection. Most of the rest of the treatment-responsive genes we categorized as mediators of trafficking, reformation of active follicles, and tissue repair. We propose a model in which nearly counterbalanced functions of mediators and moderators of immune activation and defenses account for the slow dynamics of HIV-1 infection before treatment. This model suggests that there could be a role for anti-inflammatory agents, alone or in combination with HAART, in treating HIV-1 infection by tipping this balance to mitigate pathology.",

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note = "Funding Information: Financial support: National Institutes of Health (grants R37 AI28246, R01 AI56997, R01 AI54232, K24 AI56986, and R01 DE12934); Great Lakes Regional Center for AIDS Research (grant P30 CA79458).",

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AU - Nguyen, Phuong

AU - Haase, Ashley T

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PY - 2004/2/15

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N2 - Highly active antiretroviral therapy (HAART) curtails human immunodeficiency virus type 1 (HIV-1) replication in lymphatic tissues and partially reverses the pathological damage associated with infection, but the genes that mediate these pathological and reparative processes remain largely unknown. To identify these genes, we used microarrays to profile gene expression in serial lymph node biopsy specimens obtained before and after treatment. We discovered ∼200 treatment-responsive genes, many of them known mediators and moderators of immune activation and defenses, particularly innate defense genes, which, surprisingly, were expressed at all stages of HIV-1 infection. Most of the rest of the treatment-responsive genes we categorized as mediators of trafficking, reformation of active follicles, and tissue repair. We propose a model in which nearly counterbalanced functions of mediators and moderators of immune activation and defenses account for the slow dynamics of HIV-1 infection before treatment. This model suggests that there could be a role for anti-inflammatory agents, alone or in combination with HAART, in treating HIV-1 infection by tipping this balance to mitigate pathology.

AB - Highly active antiretroviral therapy (HAART) curtails human immunodeficiency virus type 1 (HIV-1) replication in lymphatic tissues and partially reverses the pathological damage associated with infection, but the genes that mediate these pathological and reparative processes remain largely unknown. To identify these genes, we used microarrays to profile gene expression in serial lymph node biopsy specimens obtained before and after treatment. We discovered ∼200 treatment-responsive genes, many of them known mediators and moderators of immune activation and defenses, particularly innate defense genes, which, surprisingly, were expressed at all stages of HIV-1 infection. Most of the rest of the treatment-responsive genes we categorized as mediators of trafficking, reformation of active follicles, and tissue repair. We propose a model in which nearly counterbalanced functions of mediators and moderators of immune activation and defenses account for the slow dynamics of HIV-1 infection before treatment. This model suggests that there could be a role for anti-inflammatory agents, alone or in combination with HAART, in treating HIV-1 infection by tipping this balance to mitigate pathology.

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Functional Genomic Analysis of the Response of HIV-1-Infected Lymphatic Tissue to Antiretroviral Therapy

Abstract

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