Paediatric HIV infection in the ‘omics era: defining transcriptional signatures of viral control and vaccine responses

Paediatric HIV infection in the ‘omics era: defining transcriptional signatures of viral control and vaccine responses

Modern technologies and their increased accessibility have shifted ‘benchtop’ medical research to the larger dimension of ‘omics. The huge amount of data derived from gene expression and sequencing experiments has propelled physicians, basic scientists and bioinformaticians towards a common goal to...

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Main Authors: Nicola Cotugno, Lesley De Armas, Suresh Pallikkuth, Paolo Rossi, Paolo Palma, Savita Pahwa
Format: Article
Language:English
Published: Elsevier 2015-07-01
Series:Journal of Virus Eradication
Subjects:
gene expression
paediatric HIV
systems biology
transcriptomics
cell subsets gene expression
Online Access:http://www.sciencedirect.com/science/article/pii/S2055664020305070
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spelling doaj-bd45abe35d7f434a81b9b96b8ae1de232021-05-04T07:23:49ZengElsevierJournal of Virus Eradication2055-66402015-07-0113153158Paediatric HIV infection in the ‘omics era: defining transcriptional signatures of viral control and vaccine responsesNicola Cotugno0Lesley De Armas1Suresh Pallikkuth2Paolo Rossi3Paolo Palma4Savita Pahwa5University Department of Pediatrics, DPUO, Unit of Immune and Infectious Diseases Bambino Gesù Children's Hospital, Rome, Italy; Department of Systems Medicine University of Rome,‘Tor Vergata’, ItalyMiami Center for AIDS Research, Department of Microbiology and Immunology, Miller School of Medicine University of Miami, Miami, Florida, USAMiami Center for AIDS Research, Department of Microbiology and Immunology, Miller School of Medicine University of Miami, Miami, Florida, USAUniversity Department of Pediatrics, DPUO, Unit of Immune and Infectious Diseases Bambino Gesù Children's Hospital, Rome, Italy; Department of Systems Medicine University of Rome,‘Tor Vergata’, ItalyUniversity Department of Pediatrics, DPUO, Unit of Immune and Infectious Diseases Bambino Gesù Children's Hospital, Rome, ItalyCorresponding author: Savita Pahwa, Department of Microbiology and Immunology, Miller School of Medicine University of Miami, 1580 NW 10th Avenue, Miami, FL, 33136, USA; Miami Center for AIDS Research, Department of Microbiology and Immunology, Miller School of Medicine University of Miami, Miami, Florida, USAModern technologies and their increased accessibility have shifted ‘benchtop’ medical research to the larger dimension of ‘omics. The huge amount of data derived from gene expression and sequencing experiments has propelled physicians, basic scientists and bioinformaticians towards a common goal to transform ‘big data’ into predictive constructs that are readily available and will offer clinical utility. Although most of the studies available in the literature have been performed on healthy subjects and in peripheral blood mononuclear cells (PBMC), which are a heterogenous and extremely variable pool of cells, scientists are now trying to address mechanistic questions in purified cell subsets in pathological conditions. In the field of HIV, few attempts have been made to comprehensively evaluate gene-expression profiles of infected patients with different disease status. With the view of discovering a path towards remission or viral eradication, perinatally HIV-infected children represent a unique model. In fact the well-defined time of infection and the resulting opportunity to start early treatment, thereby generating a smaller size of viral reservoir and a more intact immune system, allow for investigation of therapeutic strategies to defeat the virus. In this scenario, ‘transcriptomic’ or gene expression technologies and supporting bioinformatics applications need to be strategically integrated to provide novel information about immune correlates of virus control following treatment interruption. Here we review modern techniques for gene expression analysis and discuss the best transcriptomic strategies applicable to the field of functional cure in paediatric HIV infection.http://www.sciencedirect.com/science/article/pii/S2055664020305070gene expressionpaediatric HIVsystems biologytranscriptomicscell subsets gene expression
collection DOAJ
language English
format Article
sources DOAJ
author Nicola Cotugno
Lesley De Armas
Suresh Pallikkuth
Paolo Rossi
Paolo Palma
Savita Pahwa
spellingShingle Nicola Cotugno
Lesley De Armas
Suresh Pallikkuth
Paolo Rossi
Paolo Palma
Savita Pahwa
Paediatric HIV infection in the ‘omics era: defining transcriptional signatures of viral control and vaccine responses
Journal of Virus Eradication
gene expression
paediatric HIV
systems biology
transcriptomics
cell subsets gene expression
author_facet Nicola Cotugno
Lesley De Armas
Suresh Pallikkuth
Paolo Rossi
Paolo Palma
Savita Pahwa
author_sort Nicola Cotugno
title Paediatric HIV infection in the ‘omics era: defining transcriptional signatures of viral control and vaccine responses
title_short Paediatric HIV infection in the ‘omics era: defining transcriptional signatures of viral control and vaccine responses
title_full Paediatric HIV infection in the ‘omics era: defining transcriptional signatures of viral control and vaccine responses
title_fullStr Paediatric HIV infection in the ‘omics era: defining transcriptional signatures of viral control and vaccine responses
title_full_unstemmed Paediatric HIV infection in the ‘omics era: defining transcriptional signatures of viral control and vaccine responses
title_sort paediatric hiv infection in the ‘omics era: defining transcriptional signatures of viral control and vaccine responses
publisher Elsevier
series Journal of Virus Eradication
issn 2055-6640
publishDate 2015-07-01
description Modern technologies and their increased accessibility have shifted ‘benchtop’ medical research to the larger dimension of ‘omics. The huge amount of data derived from gene expression and sequencing experiments has propelled physicians, basic scientists and bioinformaticians towards a common goal to transform ‘big data’ into predictive constructs that are readily available and will offer clinical utility. Although most of the studies available in the literature have been performed on healthy subjects and in peripheral blood mononuclear cells (PBMC), which are a heterogenous and extremely variable pool of cells, scientists are now trying to address mechanistic questions in purified cell subsets in pathological conditions. In the field of HIV, few attempts have been made to comprehensively evaluate gene-expression profiles of infected patients with different disease status. With the view of discovering a path towards remission or viral eradication, perinatally HIV-infected children represent a unique model. In fact the well-defined time of infection and the resulting opportunity to start early treatment, thereby generating a smaller size of viral reservoir and a more intact immune system, allow for investigation of therapeutic strategies to defeat the virus. In this scenario, ‘transcriptomic’ or gene expression technologies and supporting bioinformatics applications need to be strategically integrated to provide novel information about immune correlates of virus control following treatment interruption. Here we review modern techniques for gene expression analysis and discuss the best transcriptomic strategies applicable to the field of functional cure in paediatric HIV infection.
topic gene expression
paediatric HIV
systems biology
transcriptomics
cell subsets gene expression
url http://www.sciencedirect.com/science/article/pii/S2055664020305070
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