Integrative genetic, genomic and transcriptomic analysis of heat shock protein and nuclear hormone receptor gene associations with spontaneous preterm birth

Integrative genetic, genomic and transcriptomic analysis of heat shock protein and nuclear hormone receptor gene associations with spontaneous preterm birth

Abstract Heat shock proteins are involved in the response to stress including activation of the immune response. Elevated circulating heat shock proteins are associated with spontaneous preterm birth (SPTB). Intracellular heat shock proteins act as multifunctional molecular chaperones that regulate...

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Main Authors: Johanna M. Huusko, Heli Tiensuu, Antti M. Haapalainen, Anu Pasanen, Pinja Tissarinen, Minna K. Karjalainen, Ge Zhang, Kaare Christensen, Kelli K. Ryckman, Bo Jacobsson, Jeffrey C. Murray, Stephen F. Kingsmore, Mikko Hallman, Louis J. Muglia, Mika Rämet
Format: Article
Language:English
Published: Nature Publishing Group 2021-08-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-96374-9
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spelling doaj-f305df8cd6b34e51b15c496289d931fa2021-08-29T11:23:08ZengNature Publishing GroupScientific Reports2045-23222021-08-0111111310.1038/s41598-021-96374-9Integrative genetic, genomic and transcriptomic analysis of heat shock protein and nuclear hormone receptor gene associations with spontaneous preterm birthJohanna M. Huusko0Heli Tiensuu1Antti M. Haapalainen2Anu Pasanen3Pinja Tissarinen4Minna K. Karjalainen5Ge Zhang6Kaare Christensen7Kelli K. Ryckman8Bo Jacobsson9Jeffrey C. Murray10Stephen F. Kingsmore11Mikko Hallman12Louis J. Muglia13Mika Rämet14PEDEGO Research Unit and Medical Research Center Oulu, University of OuluPEDEGO Research Unit and Medical Research Center Oulu, University of OuluPEDEGO Research Unit and Medical Research Center Oulu, University of OuluPEDEGO Research Unit and Medical Research Center Oulu, University of OuluPEDEGO Research Unit and Medical Research Center Oulu, University of OuluPEDEGO Research Unit and Medical Research Center Oulu, University of OuluDivision of Human Genetics, Center for Prevention of Preterm Birth, Perinatal Institute, Cincinnati Children’s Hospital Medical Center, Department of Pediatrics, University of Cincinnati College of Medicine, March of Dimes Prematurity Research Center Ohio CollaborativeInstitute of Public Health, University of Southern DenmarkDepartment of Epidemiology, College of Public Health and Department of Pediatrics, Carver College of Medicine, University of IowaDepartment of Obstetrics and Gynecology, Sahlgrenska Academy, University of GothenburgDepartment of Pediatrics, University of IowaRady Children’s Institute for Genomic Medicine, Rady Children’s HospitalPEDEGO Research Unit and Medical Research Center Oulu, University of OuluDivision of Human Genetics, Center for Prevention of Preterm Birth, Perinatal Institute, Cincinnati Children’s Hospital Medical Center, Department of Pediatrics, University of Cincinnati College of Medicine, March of Dimes Prematurity Research Center Ohio CollaborativePEDEGO Research Unit and Medical Research Center Oulu, University of OuluAbstract Heat shock proteins are involved in the response to stress including activation of the immune response. Elevated circulating heat shock proteins are associated with spontaneous preterm birth (SPTB). Intracellular heat shock proteins act as multifunctional molecular chaperones that regulate activity of nuclear hormone receptors. Since SPTB has a significant genetic predisposition, our objective was to identify genetic and transcriptomic evidence of heat shock proteins and nuclear hormone receptors that may affect risk for SPTB. We investigated all 97 genes encoding members of the heat shock protein families and all 49 genes encoding nuclear hormone receptors for their potential role in SPTB susceptibility. We used multiple genetic and genomic datasets including genome-wide association studies (GWASs), whole-exome sequencing (WES), and placental transcriptomics to identify SPTB predisposing factors from the mother, infant, and placenta. There were multiple associations of heat shock protein and nuclear hormone receptor genes with SPTB. Several orthogonal datasets supported roles for SEC63, HSPA1L, SACS, RORA, and AR in susceptibility to SPTB. We propose that suppression of specific heat shock proteins promotes maintenance of pregnancy, whereas activation of specific heat shock protein mediated signaling may disturb maternal–fetal tolerance and promote labor.https://doi.org/10.1038/s41598-021-96374-9
collection DOAJ
language English
format Article
sources DOAJ
author Johanna M. Huusko
Heli Tiensuu
Antti M. Haapalainen
Anu Pasanen
Pinja Tissarinen
Minna K. Karjalainen
Ge Zhang
Kaare Christensen
Kelli K. Ryckman
Bo Jacobsson
Jeffrey C. Murray
Stephen F. Kingsmore
Mikko Hallman
Louis J. Muglia
Mika Rämet
spellingShingle Johanna M. Huusko
Heli Tiensuu
Antti M. Haapalainen
Anu Pasanen
Pinja Tissarinen
Minna K. Karjalainen
Ge Zhang
Kaare Christensen
Kelli K. Ryckman
Bo Jacobsson
Jeffrey C. Murray
Stephen F. Kingsmore
Mikko Hallman
Louis J. Muglia
Mika Rämet
Integrative genetic, genomic and transcriptomic analysis of heat shock protein and nuclear hormone receptor gene associations with spontaneous preterm birth
Scientific Reports
author_facet Johanna M. Huusko
Heli Tiensuu
Antti M. Haapalainen
Anu Pasanen
Pinja Tissarinen
Minna K. Karjalainen
Ge Zhang
Kaare Christensen
Kelli K. Ryckman
Bo Jacobsson
Jeffrey C. Murray
Stephen F. Kingsmore
Mikko Hallman
Louis J. Muglia
Mika Rämet
author_sort Johanna M. Huusko
title Integrative genetic, genomic and transcriptomic analysis of heat shock protein and nuclear hormone receptor gene associations with spontaneous preterm birth
title_short Integrative genetic, genomic and transcriptomic analysis of heat shock protein and nuclear hormone receptor gene associations with spontaneous preterm birth
title_full Integrative genetic, genomic and transcriptomic analysis of heat shock protein and nuclear hormone receptor gene associations with spontaneous preterm birth
title_fullStr Integrative genetic, genomic and transcriptomic analysis of heat shock protein and nuclear hormone receptor gene associations with spontaneous preterm birth
title_full_unstemmed Integrative genetic, genomic and transcriptomic analysis of heat shock protein and nuclear hormone receptor gene associations with spontaneous preterm birth
title_sort integrative genetic, genomic and transcriptomic analysis of heat shock protein and nuclear hormone receptor gene associations with spontaneous preterm birth
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-08-01
description Abstract Heat shock proteins are involved in the response to stress including activation of the immune response. Elevated circulating heat shock proteins are associated with spontaneous preterm birth (SPTB). Intracellular heat shock proteins act as multifunctional molecular chaperones that regulate activity of nuclear hormone receptors. Since SPTB has a significant genetic predisposition, our objective was to identify genetic and transcriptomic evidence of heat shock proteins and nuclear hormone receptors that may affect risk for SPTB. We investigated all 97 genes encoding members of the heat shock protein families and all 49 genes encoding nuclear hormone receptors for their potential role in SPTB susceptibility. We used multiple genetic and genomic datasets including genome-wide association studies (GWASs), whole-exome sequencing (WES), and placental transcriptomics to identify SPTB predisposing factors from the mother, infant, and placenta. There were multiple associations of heat shock protein and nuclear hormone receptor genes with SPTB. Several orthogonal datasets supported roles for SEC63, HSPA1L, SACS, RORA, and AR in susceptibility to SPTB. We propose that suppression of specific heat shock proteins promotes maintenance of pregnancy, whereas activation of specific heat shock protein mediated signaling may disturb maternal–fetal tolerance and promote labor.
url https://doi.org/10.1038/s41598-021-96374-9
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