Comparative proteomic analysis of malformed umbilical cords from somatic cell nuclear transfer-derived piglets: implications for early postnatal death

Comparative proteomic analysis of malformed umbilical cords from somatic cell nuclear transfer-derived piglets: implications for early postnatal death

<p>Abstract</p> <p>Background</p> <p>Somatic cell nuclear transfer (scNT)-derived piglets have high rates of mortality, including stillbirth and postnatal death. Here, we examined severe malformed umbilical cords (MUC), as well as other organs, from nine scNT-derived te...

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Main Authors: Seo Han, Lee Hoon, Park ChanKyu, Kim Teoan, Paik Seung-Sam, Park Ho-Hyun, Cho Seong-Keun, Hwang Kyu-Chan, Choi Yun-Jung, Kim Jae-Hwan, Park Jong-Yi, Park Soo-Bong, Hwang Seongsoo, Kim Jin-Hoi
Format: Article
Language:English
Published: BMC 2009-11-01
Series:BMC Genomics
Online Access:http://www.biomedcentral.com/1471-2164/10/511
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spelling doaj-6b1600f835db4c12b3d6cf216efced3a2020-11-24T23:18:02ZengBMCBMC Genomics1471-21642009-11-0110151110.1186/1471-2164-10-511Comparative proteomic analysis of malformed umbilical cords from somatic cell nuclear transfer-derived piglets: implications for early postnatal deathSeo HanLee HoonPark ChanKyuKim TeoanPaik Seung-SamPark Ho-HyunCho Seong-KeunHwang Kyu-ChanChoi Yun-JungKim Jae-HwanPark Jong-YiPark Soo-BongHwang SeongsooKim Jin-Hoi<p>Abstract</p> <p>Background</p> <p>Somatic cell nuclear transfer (scNT)-derived piglets have high rates of mortality, including stillbirth and postnatal death. Here, we examined severe malformed umbilical cords (MUC), as well as other organs, from nine scNT-derived term piglets.</p> <p>Results</p> <p>Microscopic analysis revealed complete occlusive thrombi and the absence of columnar epithelial layers in MUC (scNT-MUC) derived from scNT piglets. scNT-MUC had significantly lower expression levels of platelet endothelial cell adhesion molecule-1 (PECAM-1) and angiogenesis-related genes than umbilical cords of normal scNT piglets (scNT-N) that survived into adulthood. Endothelial cells derived from scNT-MUC migrated and formed tubules more slowly than endothelial cells from control umbilical cords or scNT-N. Proteomic analysis of scNT-MUC revealed significant down-regulation of proteins involved in the prevention of oxidative stress and the regulation of glycolysis and cell motility, while molecules involved in apoptosis were significantly up-regulated. Histomorphometric analysis revealed severe calcification in the kidneys and placenta, peliosis in the liver sinusoidal space, abnormal stromal cell proliferation in the lungs, and tubular degeneration in the kidneys in scNT piglets with MUC. Increased levels of apoptosis were also detected in organs derived from all scNT piglets with MUC.</p> <p>Conclusion</p> <p>These results suggest that MUC contribute to fetal malformations, preterm birth and low birth weight due to underlying molecular defects that result in hypoplastic umbilical arteries and/or placental insufficiency. The results of the current study demonstrate the effects of MUC on fetal growth and organ development in scNT-derived pigs, and provide important insight into the molecular mechanisms underlying angiogenesis during umbilical cord development.</p> http://www.biomedcentral.com/1471-2164/10/511
collection DOAJ
language English
format Article
sources DOAJ
author Seo Han
Lee Hoon
Park ChanKyu
Kim Teoan
Paik Seung-Sam
Park Ho-Hyun
Cho Seong-Keun
Hwang Kyu-Chan
Choi Yun-Jung
Kim Jae-Hwan
Park Jong-Yi
Park Soo-Bong
Hwang Seongsoo
Kim Jin-Hoi
spellingShingle Seo Han
Lee Hoon
Park ChanKyu
Kim Teoan
Paik Seung-Sam
Park Ho-Hyun
Cho Seong-Keun
Hwang Kyu-Chan
Choi Yun-Jung
Kim Jae-Hwan
Park Jong-Yi
Park Soo-Bong
Hwang Seongsoo
Kim Jin-Hoi
Comparative proteomic analysis of malformed umbilical cords from somatic cell nuclear transfer-derived piglets: implications for early postnatal death
BMC Genomics
author_facet Seo Han
Lee Hoon
Park ChanKyu
Kim Teoan
Paik Seung-Sam
Park Ho-Hyun
Cho Seong-Keun
Hwang Kyu-Chan
Choi Yun-Jung
Kim Jae-Hwan
Park Jong-Yi
Park Soo-Bong
Hwang Seongsoo
Kim Jin-Hoi
author_sort Seo Han
title Comparative proteomic analysis of malformed umbilical cords from somatic cell nuclear transfer-derived piglets: implications for early postnatal death
title_short Comparative proteomic analysis of malformed umbilical cords from somatic cell nuclear transfer-derived piglets: implications for early postnatal death
title_full Comparative proteomic analysis of malformed umbilical cords from somatic cell nuclear transfer-derived piglets: implications for early postnatal death
title_fullStr Comparative proteomic analysis of malformed umbilical cords from somatic cell nuclear transfer-derived piglets: implications for early postnatal death
title_full_unstemmed Comparative proteomic analysis of malformed umbilical cords from somatic cell nuclear transfer-derived piglets: implications for early postnatal death
title_sort comparative proteomic analysis of malformed umbilical cords from somatic cell nuclear transfer-derived piglets: implications for early postnatal death
publisher BMC
series BMC Genomics
issn 1471-2164
publishDate 2009-11-01
description <p>Abstract</p> <p>Background</p> <p>Somatic cell nuclear transfer (scNT)-derived piglets have high rates of mortality, including stillbirth and postnatal death. Here, we examined severe malformed umbilical cords (MUC), as well as other organs, from nine scNT-derived term piglets.</p> <p>Results</p> <p>Microscopic analysis revealed complete occlusive thrombi and the absence of columnar epithelial layers in MUC (scNT-MUC) derived from scNT piglets. scNT-MUC had significantly lower expression levels of platelet endothelial cell adhesion molecule-1 (PECAM-1) and angiogenesis-related genes than umbilical cords of normal scNT piglets (scNT-N) that survived into adulthood. Endothelial cells derived from scNT-MUC migrated and formed tubules more slowly than endothelial cells from control umbilical cords or scNT-N. Proteomic analysis of scNT-MUC revealed significant down-regulation of proteins involved in the prevention of oxidative stress and the regulation of glycolysis and cell motility, while molecules involved in apoptosis were significantly up-regulated. Histomorphometric analysis revealed severe calcification in the kidneys and placenta, peliosis in the liver sinusoidal space, abnormal stromal cell proliferation in the lungs, and tubular degeneration in the kidneys in scNT piglets with MUC. Increased levels of apoptosis were also detected in organs derived from all scNT piglets with MUC.</p> <p>Conclusion</p> <p>These results suggest that MUC contribute to fetal malformations, preterm birth and low birth weight due to underlying molecular defects that result in hypoplastic umbilical arteries and/or placental insufficiency. The results of the current study demonstrate the effects of MUC on fetal growth and organ development in scNT-derived pigs, and provide important insight into the molecular mechanisms underlying angiogenesis during umbilical cord development.</p>
url http://www.biomedcentral.com/1471-2164/10/511
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