Novel functional role of GH/IGF-I in neonatal lung myofibroblasts and in rat lung growth after intrauterine growth restriction

Jawed Nawabi; Christina Vohlen; Katharina Dinger; Chansutha Thangaratnarajah; Christian Klaudt; Eva Lopez Garcia; Dharmesh V Hirani; Pinar Haznedar Karakaya; Iris Macheleidt; Margarete Odenthal; Kai D Nüsken; Jörg Dötsch; Miguel A Alejandre Alcazar

doi:10.1152/ajplung.00413.2017

Novel functional role of GH/IGF-I in neonatal lung myofibroblasts and in rat lung growth after intrauterine growth restriction

Standard

Novel functional role of GH/IGF-I in neonatal lung myofibroblasts and in rat lung growth after intrauterine growth restriction. / Nawabi, Jawed; Vohlen, Christina; Dinger, Katharina; Thangaratnarajah, Chansutha; Klaudt, Christian; Lopez Garcia, Eva; Hirani, Dharmesh V; Karakaya, Pinar Haznedar; Macheleidt, Iris; Odenthal, Margarete; Nüsken, Kai D; Dötsch, Jörg; Alejandre Alcazar, Miguel A.

in: AM J PHYSIOL-LUNG C, Jahrgang 315, Nr. 5, 26.07.2018, S. L623-L637.

Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Zeitschriftenaufsatz › Forschung › Begutachtung

Harvard

Nawabi, J, Vohlen, C, Dinger, K, Thangaratnarajah, C, Klaudt, C, Lopez Garcia, E, Hirani, DV, Karakaya, PH, Macheleidt, I, Odenthal, M, Nüsken, KD, Dötsch, J & Alejandre Alcazar, MA 2018, 'Novel functional role of GH/IGF-I in neonatal lung myofibroblasts and in rat lung growth after intrauterine growth restriction', AM J PHYSIOL-LUNG C, Jg. 315, Nr. 5, S. L623-L637. https://doi.org/10.1152/ajplung.00413.2017

APA

Nawabi, J., Vohlen, C., Dinger, K., Thangaratnarajah, C., Klaudt, C., Lopez Garcia, E., Hirani, D. V., Karakaya, P. H., Macheleidt, I., Odenthal, M., Nüsken, K. D., Dötsch, J., & Alejandre Alcazar, M. A. (2018). Novel functional role of GH/IGF-I in neonatal lung myofibroblasts and in rat lung growth after intrauterine growth restriction. AM J PHYSIOL-LUNG C, 315(5), L623-L637. https://doi.org/10.1152/ajplung.00413.2017

Vancouver

Nawabi J, Vohlen C, Dinger K, Thangaratnarajah C, Klaudt C, Lopez Garcia E et al. Novel functional role of GH/IGF-I in neonatal lung myofibroblasts and in rat lung growth after intrauterine growth restriction. AM J PHYSIOL-LUNG C. 2018 Jul 26;315(5):L623-L637. https://doi.org/10.1152/ajplung.00413.2017

Bibtex

@article{280cb9bf06704e5285d96db37bf8324e,

title = "Novel functional role of GH/IGF-I in neonatal lung myofibroblasts and in rat lung growth after intrauterine growth restriction",

abstract = "Intrauterine growth restriction (IUGR) is a risk factor for neonatal chronic lung disease (CLD) characterized by reduced alveoli and perturbed matrix remodeling. Previously, our group showed an activation of myofibroblasts and matrix remodeling in rat lungs after IUGR. Because growth hormone (GH) and insulin-like growth factor I (IGF-I) regulate development and growth, we queried 1) whether GH/IGF-I signaling is dysregulated in lungs after IUGR and 2) whether GH/IGF-I signaling is linked to neonatal lung myofibroblast function. IUGR was induced in Wistar rats by isocaloric low-protein diet during gestation. Lungs were obtained at embryonic day (E) 21, postnatal day (P) 3, P12, and P23. Murine embryonic fibroblasts (MEF) or primary neonatal myofibroblasts from rat lungs of control (pnFCo) and IUGR (pnFIUGR) were used for cell culture studies. In the intrauterine phase (E21), we found a reduction in GH receptor (GH-R), Stat5 signaling and IGF-I expression in lungs after IUGR. In the postnatal phase (P3-P23), catchup growth after IUGR was linked to increased GH mRNA, GH-R protein, activation of proliferative Stat5/Akt signaling, cyclin D1 and PCNA in rat lungs. On P23, a thickening of the alveolar septae was related to increased vimentin and matrix deposition, indicating fibrosis. In cell culture studies, nutrient deprivation blocked GH-R/IGF-IR signaling and proliferation in MEFs; this was reversed by IGF-I. Proliferation and Stat5 activation were increased in pnFIUGR. IGF-I and GH induced proliferation and migration of pnFCo; only IGF-I had these effects on pnFIUGR. Thus, we show a novel mechanism by which the GH/IGF-I axis in lung myofibroblasts could account for structural lung changes after IUGR.",

keywords = "Journal Article",

author = "Jawed Nawabi and Christina Vohlen and Katharina Dinger and Chansutha Thangaratnarajah and Christian Klaudt and {Lopez Garcia}, Eva and Hirani, {Dharmesh V} and Karakaya, {Pinar Haznedar} and Iris Macheleidt and Margarete Odenthal and N{\"u}sken, {Kai D} and J{\"o}rg D{\"o}tsch and {Alejandre Alcazar}, {Miguel A}",

year = "2018",

month = jul,

day = "26",

doi = "10.1152/ajplung.00413.2017",

language = "English",

volume = "315",

pages = "L623--L637",

number = "5",

}

RIS

TY - JOUR

T1 - Novel functional role of GH/IGF-I in neonatal lung myofibroblasts and in rat lung growth after intrauterine growth restriction

AU - Nawabi, Jawed

AU - Vohlen, Christina

AU - Dinger, Katharina

AU - Thangaratnarajah, Chansutha

AU - Klaudt, Christian

AU - Lopez Garcia, Eva

AU - Hirani, Dharmesh V

AU - Karakaya, Pinar Haznedar

AU - Macheleidt, Iris

AU - Odenthal, Margarete

AU - Nüsken, Kai D

AU - Dötsch, Jörg

AU - Alejandre Alcazar, Miguel A

PY - 2018/7/26

Y1 - 2018/7/26

N2 - Intrauterine growth restriction (IUGR) is a risk factor for neonatal chronic lung disease (CLD) characterized by reduced alveoli and perturbed matrix remodeling. Previously, our group showed an activation of myofibroblasts and matrix remodeling in rat lungs after IUGR. Because growth hormone (GH) and insulin-like growth factor I (IGF-I) regulate development and growth, we queried 1) whether GH/IGF-I signaling is dysregulated in lungs after IUGR and 2) whether GH/IGF-I signaling is linked to neonatal lung myofibroblast function. IUGR was induced in Wistar rats by isocaloric low-protein diet during gestation. Lungs were obtained at embryonic day (E) 21, postnatal day (P) 3, P12, and P23. Murine embryonic fibroblasts (MEF) or primary neonatal myofibroblasts from rat lungs of control (pnFCo) and IUGR (pnFIUGR) were used for cell culture studies. In the intrauterine phase (E21), we found a reduction in GH receptor (GH-R), Stat5 signaling and IGF-I expression in lungs after IUGR. In the postnatal phase (P3-P23), catchup growth after IUGR was linked to increased GH mRNA, GH-R protein, activation of proliferative Stat5/Akt signaling, cyclin D1 and PCNA in rat lungs. On P23, a thickening of the alveolar septae was related to increased vimentin and matrix deposition, indicating fibrosis. In cell culture studies, nutrient deprivation blocked GH-R/IGF-IR signaling and proliferation in MEFs; this was reversed by IGF-I. Proliferation and Stat5 activation were increased in pnFIUGR. IGF-I and GH induced proliferation and migration of pnFCo; only IGF-I had these effects on pnFIUGR. Thus, we show a novel mechanism by which the GH/IGF-I axis in lung myofibroblasts could account for structural lung changes after IUGR.

AB - Intrauterine growth restriction (IUGR) is a risk factor for neonatal chronic lung disease (CLD) characterized by reduced alveoli and perturbed matrix remodeling. Previously, our group showed an activation of myofibroblasts and matrix remodeling in rat lungs after IUGR. Because growth hormone (GH) and insulin-like growth factor I (IGF-I) regulate development and growth, we queried 1) whether GH/IGF-I signaling is dysregulated in lungs after IUGR and 2) whether GH/IGF-I signaling is linked to neonatal lung myofibroblast function. IUGR was induced in Wistar rats by isocaloric low-protein diet during gestation. Lungs were obtained at embryonic day (E) 21, postnatal day (P) 3, P12, and P23. Murine embryonic fibroblasts (MEF) or primary neonatal myofibroblasts from rat lungs of control (pnFCo) and IUGR (pnFIUGR) were used for cell culture studies. In the intrauterine phase (E21), we found a reduction in GH receptor (GH-R), Stat5 signaling and IGF-I expression in lungs after IUGR. In the postnatal phase (P3-P23), catchup growth after IUGR was linked to increased GH mRNA, GH-R protein, activation of proliferative Stat5/Akt signaling, cyclin D1 and PCNA in rat lungs. On P23, a thickening of the alveolar septae was related to increased vimentin and matrix deposition, indicating fibrosis. In cell culture studies, nutrient deprivation blocked GH-R/IGF-IR signaling and proliferation in MEFs; this was reversed by IGF-I. Proliferation and Stat5 activation were increased in pnFIUGR. IGF-I and GH induced proliferation and migration of pnFCo; only IGF-I had these effects on pnFIUGR. Thus, we show a novel mechanism by which the GH/IGF-I axis in lung myofibroblasts could account for structural lung changes after IUGR.

KW - Journal Article

U2 - 10.1152/ajplung.00413.2017

DO - 10.1152/ajplung.00413.2017

M3 - SCORING: Journal article

C2 - 30047284

VL - 315

SP - L623-L637

IS - 5

ER -