Pediatrics / O'Reilly Lab / Publications Publications Cohen EDRoethlin KYee MWoeller CFBrookes PSPorter GAO'Reilly MA PPARγ drives mitochondrial stress signaling and the loss of atrial cardiomyocytes in newborn mice exposed to hyperoxia.; Redox biology; Vol 76, pp. 103351. 2024 Sep 12. McGraw MDYee MKim SYDylag AMLawrence BPO'Reilly MA Diacetyl Inhalation Impairs Airway Epithelial Repair in Mice Infected with Influenza A Virus.; American journal of physiology. Lung cellular and molecular physiology. 2022 Sep 06. Warren RDylag AMBehan MDomm WYee MMayer-Proschel MMartinez LO'Reilly MA Ataxia telangiectasia mutated is required for efficient proximal airway epithelial cell regeneration following influenza A virus infection.; American journal of physiology. Lung cellular and molecular physiology. 2022 Feb 23. Yee MMcDavid ANCohen EDHuyck HLPoole CAltman BJManiscalco WMDeutsch GHPryhuber GSO'Reilly MA Neonatal Hyperoxia Activates ATF4 to Stimulate Folate Metabolism and AT2 Cell Proliferation.; American journal of respiratory cell and molecular biology. 2022 Jan 19. Dylag AMHaak JWarren RYee MPryhuber GSO'Reilly MA Low Dose Hyperoxia Primes Airways for Fibrosis in Mice after Influenza A Infection.; American journal of physiology. Lung cellular and molecular physiology. 2021 Jul 29. Woeller CFLim SARoztocil EYee MBeier EEPuzas JEO'Reilly MA Neonatal hyperoxia impairs adipogenesis of bone marrow-derived mesenchymal stem cells and fat accumulation in adult mice.; Free radical biology & medicine. 2021 Mar 20. Cohen EDYee MPorter GARitzer EEMcDavid ANBrookes PSPryhuber GSO'Reilly MA Neonatal hyperoxia inhibits proliferation and survival of atrial cardiomyocytes by suppressing fatty acid synthesis.; JCI insight. 2021 Jan 28. Mai NPrifti VLim KO'Reilly MAKim MHalterman MW Lung SOD3 limits neurovascular reperfusion injury and systemic immune activation following transient global cerebral ischemia.; Journal of stroke and cerebrovascular diseases : the official journal of National Stroke Association; Vol 29(9). 2020 Sep. Dylag AMKopin HGO'Reilly MAWang HDavis SDRen CLPryhuber GS Early Neonatal Oxygen Exposure Predicts Pulmonary Morbidity and Functional Deficits at 1 Year.; The Journal of pediatrics; Vol 223. 2020 Aug. Bell RDWhite RJGarcia-Hernandez MLWu ERahimi HMarangoni RGSlattery PDuemmel SNuzzo MHuertas NYee MO'Reilly MAMorrell CRitchlin CTSchwarz EMKorman BD TNF Induces Obliterative Pulmonary Vascular Disease in a Novel Model of Connective Tissue Disease Associated Pulmonary Arterial Hypertension (CTD-PAH).; Arthritis & rheumatology (Hoboken, N.J.). 2020 May 10. Yee MDavid Cohen EHaak JDylag AMO'Reilly MA Neonatal hyperoxia enhances age-dependent expression of SARS-CoV-2 receptors in mice.; Scientific reports; Vol 10(1). 2020 Jan 28. Dylag AMHaak JYee MO'Reilly MA Pulmonary mechanics and structural lung development after neonatal hyperoxia in mice.; Pediatric research. 2019 Dec 13. Dylag AMBrookes PSO'Reilly MA Swapping mitochondria: A key to understanding susceptibility to neonatal chronic lung disease.; American journal of physiology. Lung cellular and molecular physiology. 2019 Oct 09. Warren RDomm WYee MCampbell AMalone JWright TMayer-Proschel MO'Reilly MA Ataxia-telangiectasia mutated is required for the development of protective immune memory after influenza A virus infection.; American journal of physiology. Lung cellular and molecular physiology. 2019 Sep 11. Mai NMiller-Rhodes KPrifti VKim MO'Reilly MAHalterman MW Lung-Derived SOD3 Attenuates Neurovascular Injury After Transient Global Cerebral Ischemia.; Journal of the American Heart Association; Vol 8(9). 2019 May 07. Warren RO'Reilly MA An Elusive Fox that Suppresses Scgb1a1 in Asthma Has Been Found.; American journal of respiratory cell and molecular biology. 2019 Feb 06. Morris-Schaffer KSobolewski MWelle KConrad KYee MO'Reilly MACory-Slechta DA Cognitive flexibility deficits in male mice exposed to neonatal hyperoxia followed by concentrated ambient ultrafine particles.; Neurotoxicology and teratology. 2018 Oct 11. Morris-Schaffer KSobolewski MAllen JLMarvin EYee MArora MO'Reilly MACory-Slechta DA Effect of neonatal hyperoxia followed by concentrated ambient ultrafine particle exposure on cumulative learning in C57Bl/6J mice.; Neurotoxicology. 2018 Jun 16. Yee MCohen EDDomm WPorter GAMcDavid ANO'Reilly MA Neonatal hyperoxia depletes pulmonary vein cardiomyocytes in adult mice via mitochondrial oxidation.; American journal of physiology. Lung cellular and molecular physiology. 2018 Jan 18. Buczynski BWMai NYee MAllen JLPrifti LCory-Slechta DAHalterman MWO'Reilly MA Lung-Specific Extracellular Superoxide Dismutase Improves Cognition of Adult Mice Exposed to Neonatal Hyperoxia.; Frontiers in medicine; Vol 5. 2018. McGrath-Morrow SANdeh RCollaco JMRothblum-Oviatt CWright JO'Reilly MASinger BDLederman HM Inflammation and transcriptional responses of peripheral blood mononuclear cells in classic ataxia telangiectasia.; PloS one; Vol 13(12). 2018. Domm WYee MMisra RSGelein RNogales AMartinez Sobrido LO'Reilly MA Oxygen-dependent changes in lung development do not affect epithelial infection with influenza A virus.; American journal of physiology. Lung cellular and molecular physiology. 2017 Aug 10. Resseguie EABrookes PSO'Reilly MA SMG-1 kinase attenuates mitochondrial ROS production but not cell respiration deficits during hyperoxia.; Experimental lung research. 2017 Jul 27. Yee MDomm WGelein RBentley KLKottmann RMSime PJLawrence BPO'Reilly MA Alternative Progenitor Lineages Regenerate the Adult Lung Depleted of Alveolar Epithelial Type 2 Cells.; American journal of respiratory cell and molecular biology; Vol 56(4). 2017 Apr. O'Reilly MA Giving New Identities to Alveolar Epithelial Type I Cells.; American journal of respiratory cell and molecular biology; Vol 56(3). 2017 Mar. Yee MGelein RMariani TJLawrence BPO'Reilly MA The Oxygen Environment at Birth Specifies the Population of Alveolar Epithelial Stem Cells in the Adult Lung.; Stem cells (Dayton, Ohio); Vol 34(5). 2016 May. Resseguie EAStaversky RJBrookes PSO'Reilly MA Hyperoxia activates ATM independent from mitochondrial ROS and dysfunction.; Redox biology; Vol 5. 2015 Aug. Reilly ECMartin KCJin GBYee MO'Reilly MALawrence BP Neonatal hyperoxia leads to persistent alterations in NK responses to influenza A virus infection.; American journal of physiology. Lung cellular and molecular physiology; Vol 308(1). 2015 Jan 1. Hilgendorff AO'Reilly MA Bronchopulmonary dysplasia early changes leading to long-term consequences.; Frontiers in medicine; Vol 2. 2015. Domm WMisra RSO'Reilly MA Affect of Early Life Oxygen Exposure on Proper Lung Development and Response to Respiratory Viral Infections.; Frontiers in medicine; Vol 2. 2015. Kalifa LGewandter JSStaversky RJSia EABrookes PSO'Reilly MA DNA double-strand breaks activate ATM independent of mitochondrial dysfunction in A549 cells.; Free radical biology & medicine; Vol 75. 2014 Oct. Bhattacharya SZhou ZYee MChu CYLopez AMLunger VASolleti SKResseguie EBuczynski BMariani TJO'Reilly MA The genome-wide transcriptional response to neonatal hyperoxia identifies Ahr as a key regulator.; American journal of physiology. Lung cellular and molecular physiology; Vol 307(7). 2014 Oct 01. Maduekwe ETBuczynski BWYee MRangasamy TStevens TPLawrence BPO'Reilly MA Cumulative neonatal oxygen exposure predicts response of adult mice infected with influenza A virus.; Pediatric pulmonology. 2014 May 22. Yee MBuczynski BWO'Reilly MA Neonatal hyperoxia stimulates the expansion of alveolar epithelial type II cells.; American journal of respiratory cell and molecular biology; Vol 50(4). 2014 Apr. Perez-Nazario NRangel-Moreno JO'Reilly MAPasparakis MGigliotti FWright TW Selective ablation of lung epithelial IKK2 impairs pulmonary Th17 responses and delays the clearance of Pneumocystis.; Journal of immunology (Baltimore, Md. : 1950); Vol 191(9). 2013 Nov 1. Zhao LYee MO'Reilly MA Transdifferentiation of alveolar epithelial type II to type I cells is controlled by opposing TGF-β and BMP signaling.; American journal of physiology. Lung cellular and molecular physiology; Vol 305(6). 2013 Sep 15. Buczynski BWYee MMartin KCLawrence BPO'Reilly MA Neonatal hyperoxia alters the host response to influenza A virus infection in adult mice through multiple pathways.; American journal of physiology. Lung cellular and molecular physiology; Vol 305(4). 2013 Aug 15. Yee MBuczynski BWLawrence BPO'Reilly MA Neonatal hyperoxia increases sensitivity of adult mice to bleomycin-induced lung fibrosis.; American journal of respiratory cell and molecular biology; Vol 48(2). 2013 Feb. O'Reilly MA Angiotensin II: tapping the cell cycle machinery to kill endothelial cells.; American journal of physiology. Lung cellular and molecular physiology; Vol 303(7). 2012 Oct 1. Giannandrea MYee MO'Reilly MALawrence BP Memory CD8+ T cells are sufficient to alleviate impaired host resistance to influenza A virus infection caused by neonatal oxygen supplementation.; Clinical and vaccine immunology : CVI; Vol 19(9). 2012 Sep. O'Reilly MAYee MBuczynski BWVitiello PFKeng PCWelle SLFinkelstein JNDean DALawrence BP Neonatal oxygen increases sensitivity to influenza A virus infection in adult mice by suppressing epithelial expression of Ear1.; The American journal of pathology; Vol 181(2). 2012 Aug. Buczynski BWYee MPaige Lawrence BO'Reilly MA Lung development and the host response to influenza A virus are altered by different doses of neonatal oxygen in mice.; American journal of physiology. Lung cellular and molecular physiology; Vol 302(10). 2012 May 15. McGrath-Morrow SALauer TCollaco JMYee MO'Reilly MMitzner WNeptune EWise RBiswal S Neonatal hyperoxia contributes additively to cigarette smoke-induced chronic obstructive pulmonary disease changes in adult mice.; American journal of respiratory cell and molecular biology; Vol 45(3). 2011 Sep. Gewandter JSBambara RAO'Reilly MA The RNA surveillance protein SMG1 activates p53 in response to DNA double-strand breaks but not exogenously oxidized mRNA.; Cell cycle (Georgetown, Tex.); Vol 10(15). 2011 Aug 01. Yee MWhite RJAwad HABates WAMcGrath-Morrow SAO'Reilly MA Neonatal hyperoxia causes pulmonary vascular disease and shortens life span in aging mice.; The American journal of pathology; Vol 178(6). 2011 Jun. Wu YCO'Reilly MA Bcl-X(L) is the primary mediator of p21 protection against hyperoxia-induced cell death.; Experimental lung research; Vol 37(2). 2011 Mar. Staversky RJVitiello PFYee MCallahan LMDean DAO'Reilly MA Epithelial ablation of Bcl-XL increases sensitivity to oxygen without disrupting lung development.; American journal of respiratory cell and molecular biology; Vol 43(3). 2010 Sep. Chess PRBenson RPManiscalco WMWright TWO'Reilly MAJohnston CJ Murine mechanical ventilation stimulates alveolar epithelial cell proliferation.; Experimental lung research; Vol 36(6). 2010 Aug. Gewandter JSStaversky RJO'Reilly MA Hyperoxia augments ER-stress-induced cell death independent of BiP loss.; Free radical biology & medicine; Vol 47(12). 2009 Dec 15. Yee MChess PRMcGrath-Morrow SAWang ZGelein RZhou RDean DANotter RHO'Reilly MA Neonatal oxygen adversely affects lung function in adult mice without altering surfactant composition or activity.; American journal of physiology. Lung cellular and molecular physiology; Vol 297(4). 2009 Oct. Lew BJCollins LLO'Reilly MALawrence BP Activation of the aryl hydrocarbon receptor during different critical windows in pregnancy alters mammary epithelial cell proliferation and differentiation.; Toxicological sciences : an official journal of the Society of Toxicology; Vol 111(1). 2009 Sep. McGrath-Morrow SLauer TYee MNeptune EPodowski MThimmulappa RKO'Reilly MBiswal S Nrf2 increases survival and attenuates alveolar growth inhibition in neonatal mice exposed to hyperoxia.; American journal of physiology. Lung cellular and molecular physiology; Vol 296(4). 2009 Apr. Vitiello PFWu YCStaversky RJO'Reilly MA p21(Cip1) protects against oxidative stress by suppressing ER-dependent activation of mitochondrial death pathways.; Free radical biology & medicine; Vol 46(1). 2009 Jan 1. Pryhuber GSHuyck HLBhagwat SO'Reilly MAFinkelstein JNGigliotti FWright TW Parenchymal cell TNF receptors contribute to inflammatory cell recruitment and respiratory failure in Pneumocystis carinii-induced pneumonia.; Journal of immunology (Baltimore, Md. : 1950); Vol 181(2). 2008 Jul 15. Gehen SCStaversky RJBambara RAKeng PCO'Reilly MA hSMG-1 and ATM sequentially and independently regulate the G1 checkpoint during oxidative stress.; Oncogene; Vol 27(29). 2008 Jul 3. Yao HYang SREdirisinghe IRajendrasozhan SCaito SAdenuga DO'Reilly MARahman I Disruption of p21 attenuates lung inflammation induced by cigarette smoke, LPS, and fMLP in mice.; American journal of respiratory cell and molecular biology; Vol 39(1). 2008 Jul. O'Reilly MAMarr SHYee MMcGrath-Morrow SALawrence BP Neonatal hyperoxia enhances the inflammatory response in adult mice infected with influenza A virus.; American journal of respiratory and critical care medicine; Vol 177(10). 2008 May 15. Vitiello PFStaversky RJKeng PCO'Reilly MA PUMA inactivation protects against oxidative stress through p21/Bcl-XL inhibition of bax death.; Free radical biology & medicine; Vol 44(3). 2008 Feb 1. Gehen SCVitiello PFBambara RAKeng PCO'Reilly MA Downregulation of PCNA potentiates p21-mediated growth inhibition in response to hyperoxia.; American journal of physiology. Lung cellular and molecular physiology; Vol 292(3). 2007 Mar. Bijli KMMinhajuddin MFazal FO'Reilly MAPlatanias LCRahman A c-Src interacts with and phosphorylates RelA/p65 to promote thrombin-induced ICAM-1 expression in endothelial cells.; American journal of physiology. Lung cellular and molecular physiology; Vol 292(2). 2007 Feb. Yee MVitiello PFRoper JMStaversky RJWright TWMcGrath-Morrow SAManiscalco WMFinkelstein JNO'Reilly MA Type II epithelial cells are critical target for hyperoxia-mediated impairment of postnatal lung development.; American journal of physiology. Lung cellular and molecular physiology; Vol 291(5). 2006 Nov. Staversky RJVitiello PFGehen SCHelt CERahman AKeng PCO'Reilly MA p21(Cip1/Waf1/Sdi1) protects against hyperoxia by maintaining expression of Bcl-X(L).; Free radical biology & medicine; Vol 41(4). 2006 Aug 15. Vitiello PFStaversky RJGehen SCJohnston CJFinkelstein JNWright TWO'Reilly MA p21Cip1 protection against hyperoxia requires Bcl-XL and is uncoupled from its ability to suppress growth.; The American journal of pathology; Vol 168(6). 2006 Jun. Auten RLO'Reilly MAOury TDNozik-Grayck EWhorton MH Transgenic extracellular superoxide dismutase protects postnatal alveolar epithelial proliferation and development during hyperoxia.; American journal of physiology. Lung cellular and molecular physiology; Vol 290(1). 2006 Jan. Maniscalco WMWatkins RHRoper JMStaversky RO'Reilly MA Hyperoxic ventilated premature baboons have increased p53, oxidant DNA damage and decreased VEGF expression.; Pediatric research; Vol 58(3). 2005 Sep. Chess PRO'Reilly MASachs FFinkelstein JN Reactive oxidant and p42/44 MAP kinase signaling is necessary for mechanical strain-induced proliferation in pulmonary epithelial cells.; Journal of applied physiology (Bethesda, Md. : 1985); Vol 99(3). 2005 Sep. Boo LMLin HHChung VZhou BLouie SGO'Reilly MAYen YAnn DK High mobility group A2 potentiates genotoxic stress in part through the modulation of basal and DNA damage-dependent phosphatidylinositol 3-kinase-related protein kinase activation.; Cancer research; Vol 65(15). 2005 Aug 1. Pryhuber GSHuyck HLRoper JMCornejo JO'Reilly MAPierce RHTsitsikov EN Acute tumor necrosis factor-alpha-induced liver injury in the absence of tumor necrosis factor receptor-associated factor 1 gene expression.; The American journal of pathology; Vol 166(6). 2005 Jun. O'reilly MAVitiello PFGehen SCStaversky RJ p21(Cip1/WAF1/Sdi1) does not affect expression of base excision DNA repair enzymes during chronic oxidative stress.; Antioxidants & redox signaling; Vol 7(5-6). 2005 May. Roper JMGehen SCStaversky RJHollander MCFornace AJO'Reilly MA Loss of Gadd45a does not modify the pulmonary response to oxidative stress.; American journal of physiology. Lung cellular and molecular physiology; Vol 288(4). 2005 Apr. Mazzatti DJLee YJHelt CEO'Reilly MAKeng PC p53 modulates radiation sensitivity independent of p21 transcriptional activation.; American journal of clinical oncology; Vol 28(1). 2005 Feb. Helt CECliby WAKeng PCBambara RAO'Reilly MA Ataxia telangiectasia mutated (ATM) and ATM and Rad3-related protein exhibit selective target specificities in response to different forms of DNA damage.; The Journal of biological chemistry; Vol 280(2). 2005 Jan 14. Chess PRO'Reilly MAToia L Macroarray analysis reveals a strain-induced oxidant response in pulmonary epithelial cells.; Experimental lung research; Vol 30(8). 2004 Dec. Roper JMMazzatti DJWatkins RHManiscalco WMKeng PCO'Reilly MA In vivo exposure to hyperoxia induces DNA damage in a population of alveolar type II epithelial cells.; American journal of physiology. Lung cellular and molecular physiology; Vol 286(5). 2004 May. Su CGao GSchneider SHelt CWeiss CO'Reilly MABohmann DZhao J DNA damage induces downregulation of histone gene expression through the G1 checkpoint pathway.; The EMBO journal; Vol 23(5). 2004 Mar 10. Helt CEStaversky RJLee YJBambara RAKeng PCO'Reilly MA The Cdk and PCNA domains on p21Cip1 both function to inhibit G1/S progression during hyperoxia.; American journal of physiology. Lung cellular and molecular physiology; Vol 286(3). 2004 Mar. Varughese RNayak JLLoMonaco MO'Reilly MARyan RMD'Angio CT Effects of hyperoxia on tumor necrosis factor alpha and Grobeta expression in newborn rabbit lungs.; Lung; Vol 181(6). 2003 Nov. O'Reilly MAWatkins RHStaversky RJManiscalco WM Induced p21Cip1 in premature baboons with CLD: implications for alveolar hypoplasia.; American journal of physiology. Lung cellular and molecular physiology; Vol 285(4). 2003 Oct. Roper JMStaversky RJFinkelstein JNKeng PCO'Reilly MA Identification and isolation of mouse type II cells on the basis of intrinsic expression of enhanced green fluorescent protein.; American journal of physiology. Lung cellular and molecular physiology; Vol 285(3). 2003 Sep. O'Reilly MAStaversky RJFinkelstein JNKeng PC Activation of the G2 cell cycle checkpoint enhances survival of epithelial cells exposed to hyperoxia.; American journal of physiology. Lung cellular and molecular physiology; Vol 284(2). 2003 Feb. Schwartz GJKittelberger AMWatkins RHO'Reilly MA Carbonic anhydrase XII mRNA encodes a hydratase that is differentially expressed along the rabbit nephron.; American journal of physiology. Renal physiology; Vol 284(2). 2003 Feb. Maniscalco WMWatkins RHO'Reilly MAShea CP Increased epithelial cell proliferation in very premature baboons with chronic lung disease.; American journal of physiology. Lung cellular and molecular physiology; Vol 283(5). 2002 Nov. Staversky RJWatkins RHWright TWHernady ELoMonaco MBD'Angio CTWilliams JPManiscalco WMO'Reilly MA Normal remodeling of the oxygen-injured lung requires the cyclin-dependent kinase inhibitor p21(Cip1/WAF1/Sdi1).; The American journal of pathology; Vol 161(4). 2002 Oct. Rancourt RCHayes DDChess PRKeng PCO'Reilly MA Growth arrest in G1 protects against oxygen-induced DNA damage and cell death.; Journal of cellular physiology; Vol 193(1). 2002 Oct. Helt CERancourt RCStaversky RJO'Reilly MA p53-dependent induction of p21(Cip1/WAF1/Sdi1) protects against oxygen-induced toxicity.; Toxicological sciences : an official journal of the Society of Toxicology; Vol 63(2). 2001 Oct. O'Reilly MAStaversky RJWatkins RHReed CKde Mesy Jensen KLFinkelstein JNKeng PC The cyclin-dependent kinase inhibitor p21 protects the lung from oxidative stress.; American journal of respiratory cell and molecular biology; Vol 24(6). 2001 Jun. Rancourt RCKeng PCHelt CEO'Reilly MA The role of p21(CIP1/WAF1) in growth of epithelial cells exposed to hyperoxia.; American journal of physiology. Lung cellular and molecular physiology; Vol 280(4). 2001 Apr. O'Reilly MAStaversky RJHuyck HLWatkins RHLoMonaco MBD'Angio CTBaggs RBManiscalco WMPryhuber GS Bcl-2 family gene expression during severe hyperoxia induced lung injury.; Laboratory investigation; a journal of technical methods and pathology; Vol 80(12). 2000 Dec. Johnston CJDriscoll KEFinkelstein JNBaggs RO'Reilly MACarter JGelein ROberdörster G Pulmonary chemokine and mutagenic responses in rats after subchronic inhalation of amorphous and crystalline silica.; Toxicological sciences : an official journal of the Society of Toxicology; Vol 56(2). 2000 Aug. O'Reilly MAStaversky RJWatkins RHManiscalco WMKeng PC p53-independent induction of GADD45 and GADD153 in mouse lungs exposed to hyperoxia.; American journal of physiology. Lung cellular and molecular physiology; Vol 278(3). 2000 Mar. Pryhuber GSHuyck HLStaversky RJFinkelstein JNO'Reilly MA Tumor necrosis factor-alpha-induced lung cell expression of antiapoptotic genes TRAF1 and cIAP2.; American journal of respiratory cell and molecular biology; Vol 22(2). 2000 Feb. Rancourt RCStaversky RJKeng PCO'Reilly MA Hyperoxia inhibits proliferation of Mv1Lu epithelial cells independent of TGF-beta signaling.; The American journal of physiology; Vol 277(6 Pt 1). 1999 Dec. O'Reilly MAStaversky RJWatkins RHManiscalco WM Accumulation of p21(Cip1/WAF1) during hyperoxic lung injury in mice.; American journal of respiratory cell and molecular biology; Vol 19(5). 1998 Nov. Carrillo CCafferata EGGenovese JO'Reilly MRoberts ABSanta-Coloma TA TGF-beta1 up-regulates the mRNA for the Na+/Ca2+ exchanger in neonatal rat cardiac myocytes.; Cellular and molecular biology (Noisy-le-Grand, France); Vol 44(3). 1998 May. O'Reilly MAStaversky RJStripp BRFinkelstein JN Exposure to hyperoxia induces p53 expression in mouse lung epithelium.; American journal of respiratory cell and molecular biology; Vol 18(1). 1998 Jan. O'Reilly MAStaversky RJFlanders KCJohnston CJFinkelstein JN Temporal changes in expression of TGF-beta isoforms in mouse lung exposed to oxygen.; The American journal of physiology; Vol 272(1 Pt 1). 1997 Jan. Geiser AGBusam KJKim SJLafyatis RO'Reilly MAWebbink RRoberts ABSporn MB Regulation of the transforming growth factor-beta 1 and -beta 3 promoters by transcription factor Sp1.; Gene; Vol 129(2). 1993 Jul 30. Glick ABKulkarni ABTennenbaum THennings HFlanders KCO'Reilly MSporn MBKarlsson SYuspa SH Loss of expression of transforming growth factor beta in skin and skin tumors is associated with hyperproliferation and a high risk for malignant conversion.; Proceedings of the National Academy of Sciences of the United States of America; Vol 90(13). 1993 Jul 1. O'Reilly MAGeiser AGKim SJBruggeman LALuu AXRoberts ABSporn MB Identification of an activating transcription factor (ATF) binding site in the human transforming growth factor-beta 2 promoter.; The Journal of biological chemistry; Vol 267(28). 1992 Oct 5. Kelly DO'Reilly MARizzino A Differential regulation of the transforming growth factor type-beta 2 gene promoter in embryonal carcinoma cells and their differentiated cells.; Developmental biology; Vol 153(1). 1992 Sep.