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HIV infected CD4+ T cell clones are more stable than uninfected clones during long-term antiretroviral therapy
by
Wells, Daria
, Douek, Daniel C.
, Henry, Amy R.
, Hughes, Stephen H.
, Sun, David
, Brandt, Leah D.
, Luke, Brian T.
, Joseph, Kevin W.
, Wu, Xiaolin
, Darko, Samuel
, Mellors, John W.
, Guo, Shuang
, Su, Ling
, Demirov, Dimiter
, Halvas, Elias K.
in
Antigens
/ Antiretroviral agents
/ Antiretroviral drugs
/ Antiretroviral therapy
/ Antiviral agents
/ Biology and Life Sciences
/ Care and treatment
/ CD4 antigen
/ Cell size
/ Cloning
/ Development and progression
/ Drug resistance
/ Drug therapy
/ Genomes
/ HIV
/ HIV infection
/ Human immunodeficiency virus
/ Infections
/ Lymphocytes
/ Lymphocytes T
/ Medicine and Health Sciences
/ Physiological aspects
/ Proteins
/ Proviruses
/ Research and Analysis Methods
/ T cell receptors
/ T cells
2022
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HIV infected CD4+ T cell clones are more stable than uninfected clones during long-term antiretroviral therapy
by
Wells, Daria
, Douek, Daniel C.
, Henry, Amy R.
, Hughes, Stephen H.
, Sun, David
, Brandt, Leah D.
, Luke, Brian T.
, Joseph, Kevin W.
, Wu, Xiaolin
, Darko, Samuel
, Mellors, John W.
, Guo, Shuang
, Su, Ling
, Demirov, Dimiter
, Halvas, Elias K.
in
Antigens
/ Antiretroviral agents
/ Antiretroviral drugs
/ Antiretroviral therapy
/ Antiviral agents
/ Biology and Life Sciences
/ Care and treatment
/ CD4 antigen
/ Cell size
/ Cloning
/ Development and progression
/ Drug resistance
/ Drug therapy
/ Genomes
/ HIV
/ HIV infection
/ Human immunodeficiency virus
/ Infections
/ Lymphocytes
/ Lymphocytes T
/ Medicine and Health Sciences
/ Physiological aspects
/ Proteins
/ Proviruses
/ Research and Analysis Methods
/ T cell receptors
/ T cells
2022
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HIV infected CD4+ T cell clones are more stable than uninfected clones during long-term antiretroviral therapy
by
Wells, Daria
, Douek, Daniel C.
, Henry, Amy R.
, Hughes, Stephen H.
, Sun, David
, Brandt, Leah D.
, Luke, Brian T.
, Joseph, Kevin W.
, Wu, Xiaolin
, Darko, Samuel
, Mellors, John W.
, Guo, Shuang
, Su, Ling
, Demirov, Dimiter
, Halvas, Elias K.
in
Antigens
/ Antiretroviral agents
/ Antiretroviral drugs
/ Antiretroviral therapy
/ Antiviral agents
/ Biology and Life Sciences
/ Care and treatment
/ CD4 antigen
/ Cell size
/ Cloning
/ Development and progression
/ Drug resistance
/ Drug therapy
/ Genomes
/ HIV
/ HIV infection
/ Human immunodeficiency virus
/ Infections
/ Lymphocytes
/ Lymphocytes T
/ Medicine and Health Sciences
/ Physiological aspects
/ Proteins
/ Proviruses
/ Research and Analysis Methods
/ T cell receptors
/ T cells
2022
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HIV infected CD4+ T cell clones are more stable than uninfected clones during long-term antiretroviral therapy
Journal Article
HIV infected CD4+ T cell clones are more stable than uninfected clones during long-term antiretroviral therapy
2022
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Overview
Although combination antiretroviral therapy (ART) blocks HIV replication, it is not curative because infected CD4+ T cells that carry intact, infectious proviruses persist. Understanding the behavior of clones of infected T cells is important for understanding the stability of the reservoir; however, the stabilities of clones of infected T cells in persons on long-term ART are not well defined. We determined the relative stabilities of clones of infected and uninfected CD4+ T cells over time intervals of one to four years in three individuals who had been on ART for 9–19 years. The largest clones of uninfected T cells were larger than the largest clones of infected T cells. Clones of infected CD4+ T cells were more stable than clones of uninfected CD4+ T cells of a similar size. Individual clones of CD4+ T cells carrying intact, infectious proviruses can expand, contract, or remain stable over time.
Publisher
Public Library of Science,Public Library of Science (PLoS)
Subject
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