Molecular Patterns of Subclinical and Clinical Rejection of Kidney Allograft: Quantity Matters

Molecular Patterns of Subclinical and Clinical Rejection of Kidney Allograft: Quantity Matters

Background/Aims: Subclinical rejection diagnosed from protocol biopsies is thought to be a risk factor of long- term allograft dysfunction. The reason why in some patients subclinical rejection does not represent risk for progression is not fully understood. Methods: The intragraft expression of 376...

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Main Authors: Mariana Wohlfahrtova, Irena Tycova, Eva Honsova, Alena Lodererova, Ondrej Viklicky
Format: Article
Language:English
Published: Karger Publishers 2015-05-01
Series:Kidney & Blood Pressure Research
Subjects:
Kidney transplantation
PCR
Protocol biopsy
Subclinical rejection
Transcriptome
Prostaglandin receptor
Online Access:http://www.karger.com/Article/FullText/368500
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spelling doaj-fe60d76a527342febb6db0f10e134c792020-11-25T03:18:57ZengKarger PublishersKidney & Blood Pressure Research1420-40961423-01432015-05-0140324425710.1159/000368500368500Molecular Patterns of Subclinical and Clinical Rejection of Kidney Allograft: Quantity MattersMariana WohlfahrtovaIrena TycovaEva HonsovaAlena LodererovaOndrej ViklickyBackground/Aims: Subclinical rejection diagnosed from protocol biopsies is thought to be a risk factor of long- term allograft dysfunction. The reason why in some patients subclinical rejection does not represent risk for progression is not fully understood. Methods: The intragraft expression of 376 target genes involved in chemokine defense, apoptosis, inflammation, tolerance and TGF-β signalling pathways was measured using quantitative real-time RT-PCR (2-∆∆Ct) method in subclinical inflammation (SCI, n=10), clinical inflammation in acute T-cell mediated rejection (CI, n=10) and no rejection samples (n=9). Results: Clinical inflammation group showed a increased expression of genes for chemotaxis mediating cytokines (CCL1, CCL17, CCL24, CCL25, CCL26), cytokine receptors (CCR1, CCRL2, IL1RAPL2, CXCR5), proinflammatory cytokines (IL12A, LTA), inflammatory mediator (PTAFR), complement protein C3, executioner protein of apoptosis (CASP7), growth factor (TGFA), colony stimulating factor (CSF-2), proteins involved in dendritic cells differentiation and interaction (CD209, LAMP3), regulation of immune response (LILRB2, LILBRB4). The quantitative difference in transcripts signature between SCI and CI is consistent with stronger proinflammatory setting of CI. Prostaglandin E2 receptor gene expression was independently associated with lower risk of further graft function deterioration (OR 0.11, CI 0.01-0.78, pConclusion: Subclinical acute kidney inflammation has transcriptional profile of immune injury of lower extend compared to clinical acute inflammation.http://www.karger.com/Article/FullText/368500Kidney transplantationPCRProtocol biopsySubclinical rejectionTranscriptomeProstaglandin receptor
collection DOAJ
language English
format Article
sources DOAJ
author Mariana Wohlfahrtova
Irena Tycova
Eva Honsova
Alena Lodererova
Ondrej Viklicky
spellingShingle Mariana Wohlfahrtova
Irena Tycova
Eva Honsova
Alena Lodererova
Ondrej Viklicky
Molecular Patterns of Subclinical and Clinical Rejection of Kidney Allograft: Quantity Matters
Kidney & Blood Pressure Research
Kidney transplantation
PCR
Protocol biopsy
Subclinical rejection
Transcriptome
Prostaglandin receptor
author_facet Mariana Wohlfahrtova
Irena Tycova
Eva Honsova
Alena Lodererova
Ondrej Viklicky
author_sort Mariana Wohlfahrtova
title Molecular Patterns of Subclinical and Clinical Rejection of Kidney Allograft: Quantity Matters
title_short Molecular Patterns of Subclinical and Clinical Rejection of Kidney Allograft: Quantity Matters
title_full Molecular Patterns of Subclinical and Clinical Rejection of Kidney Allograft: Quantity Matters
title_fullStr Molecular Patterns of Subclinical and Clinical Rejection of Kidney Allograft: Quantity Matters
title_full_unstemmed Molecular Patterns of Subclinical and Clinical Rejection of Kidney Allograft: Quantity Matters
title_sort molecular patterns of subclinical and clinical rejection of kidney allograft: quantity matters
publisher Karger Publishers
series Kidney & Blood Pressure Research
issn 1420-4096
1423-0143
publishDate 2015-05-01
description Background/Aims: Subclinical rejection diagnosed from protocol biopsies is thought to be a risk factor of long- term allograft dysfunction. The reason why in some patients subclinical rejection does not represent risk for progression is not fully understood. Methods: The intragraft expression of 376 target genes involved in chemokine defense, apoptosis, inflammation, tolerance and TGF-β signalling pathways was measured using quantitative real-time RT-PCR (2-∆∆Ct) method in subclinical inflammation (SCI, n=10), clinical inflammation in acute T-cell mediated rejection (CI, n=10) and no rejection samples (n=9). Results: Clinical inflammation group showed a increased expression of genes for chemotaxis mediating cytokines (CCL1, CCL17, CCL24, CCL25, CCL26), cytokine receptors (CCR1, CCRL2, IL1RAPL2, CXCR5), proinflammatory cytokines (IL12A, LTA), inflammatory mediator (PTAFR), complement protein C3, executioner protein of apoptosis (CASP7), growth factor (TGFA), colony stimulating factor (CSF-2), proteins involved in dendritic cells differentiation and interaction (CD209, LAMP3), regulation of immune response (LILRB2, LILBRB4). The quantitative difference in transcripts signature between SCI and CI is consistent with stronger proinflammatory setting of CI. Prostaglandin E2 receptor gene expression was independently associated with lower risk of further graft function deterioration (OR 0.11, CI 0.01-0.78, pConclusion: Subclinical acute kidney inflammation has transcriptional profile of immune injury of lower extend compared to clinical acute inflammation.
topic Kidney transplantation
PCR
Protocol biopsy
Subclinical rejection
Transcriptome
Prostaglandin receptor
url http://www.karger.com/Article/FullText/368500
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