CELL-BASED THERAPY IMPROVES CELL VIABILITY AND INCREASES AIRWAY SIZE IN AN EXPLANT MODEL

被引：6

作者：

Roszell, Blair ^{[1
,2
]}

Seaton, Ariel ^{[1
]}

Fong, Guo-Hua ^{[2
]}

Finck, Christine M. ^{[1
,2
]}

机构：

[1] Connecticut Childrens Med Ctr, Dept Surg, Hartford, CT 06106 USA

[2] Univ Connecticut, Ctr Hlth, Dept Cell Biol, Farmington, CT USA

来源：

EXPERIMENTAL LUNG RESEARCH | 2009年 / 35卷 / 06期

关键词：

cell-based therapy; ES cells; explant; lung; morphogenesis; EMBRYONIC STEM-CELLS; CONGENITAL DIAPHRAGMATIC-HERNIA; ENDOTHELIAL GROWTH-FACTOR; ACUTE LUNG INJURY; BRONCHOPULMONARY DYSPLASIA; PULMONARY HYPOPLASIA; RESPIRATORY-DISTRESS; EPITHELIAL-CELLS; PRETERM INFANTS; VEGF;

D O I：

10.1080/01902140902718353

中图分类号：

R56 [呼吸系及胸部疾病];

学科分类号：

100201 [内科学];

摘要：

Cell-based therapy is a promising treatment option for lung disease, but no studies have demonstrated its benefit in promoting perinatal lung growth. Embryonic day 18 (E18) fetal lungs treated with vascular inhibitors were grown as explant organ cultures to inhibit endothelial growth in the explant cultures. Disruption of pulmonary vasculature decreased explant mean cord length and viability, whereas coculture with fetal pulmonary or predifferentiated embryonic stem cells rescued both parameters. These results demonstrate in a model of perinatal lung growth, exogenous addition of fetal pulmonary cells or differentiated embryonic stem (ES) cells promotes survival and alveolar morphogenesis. These experiments represent the first evidence of the benefits of cell-based therapy for perinatal lung growth.

引用

收藏

页码：501 / 513

页数：13

相关论文

共 42 条

[1]

Derivation of type II alveolar epithelial cells from murine embryonic stem cells [J].

Ali, NN ;

Edgar, AJ ;

Samadikuchaksaraei, A ;

Timson, CM ;

Romanska, HM ;

Polak, JM ;

Bishop, AE .

TISSUE ENGINEERING, 2002, 8 (04) :541-550

[2]

Acute lung injury with endotoxin or NO2 does not enhance development of airway epithelium from bone marrow [J].

Beckett, T ;

Loi, R ;

Prenovitz, R ;

Poynter, M ;

Goncz, KK ;

Suratt, BT ;

Weiss, DJ .

MOLECULAR THERAPY, 2005, 12 (04) :680-686

[3]

Disrupted pulmonary vasculature and decreased vascular endothelial growth factor, Flt-1, and TIE-2 in human infants dying with bronchopulmonary dysplasia [J].

Bhatt, AJ ;

Pryhuber, GS ;

Huyck, H ;

Watkins, RH ;

Metlay, LA ;

Maniscalco, WM .

AMERICAN JOURNAL OF RESPIRATORY AND CRITICAL CARE MEDICINE, 2001, 164 (10) :1971-1980

[4]

*CDCP, 2000, NAT VIT STAT REP, V48

[5]

Prevention and treatment of bronchopulmonary dysplasia: Contemporary status and future outlook [J].

Cerny, Laura ;

Torday, John S. ;

Rehan, Virender K. .

LUNG, 2008, 186 (02) :75-89

[6]

VEGF expression is downregulated in nitrofen-induced congenital diaphragmatic hernia [J].

Chang, R ;

Andreoli, S ;

Ng, YS ;

Truong, T ;

Smith, SR ;

Wilson, J ;

D'Amore, PA .

JOURNAL OF PEDIATRIC SURGERY, 2004, 39 (06) :825-828

[7]

Retinoic acid fails to reverse oligohydramnios-induced pulmonary hypoplasia in fetal rats [J].

Chen, Chung-Ming ;

Chou, Hsiu-Chu ;

Wang, Leng-Fang ;

Lang, Yaw-Dong ;

Yeh, Ching-Ying .

PEDIATRIC RESEARCH, 2007, 62 (05) :553-558

[8]

Loss of HIF-2 and inhibition of VEGF impair fetal lung maturation, whereas treatment with VEGF prevents fatal respiratory distress in premature mice [J].

Compernolle, V ;

Brusselmans, K ;

Acker, T ;

Hoet, P ;

Tjwa, M ;

Beck, H ;

Plaisance, S ;

Dor, Y ;

Keshet, E ;

Lupu, F ;

Nemery, B ;

Dewerchin, M ;

Van Veldhoven, P ;

Plate, K ;

Moons, L ;

Collen, D ;

Carmeliet, P .

NATURE MEDICINE, 2002, 8 (07) :702-710

[9]

Fas-ligand-induced apoptosis of respiratory epithelial cells causes disruption of postcanalicular alveolar development [J].

De Paepe, Monique E. ;

Gundavarapu, Sravanthi ;

Tantravahi, Umadevi ;

Pepperell, John R. ;

Haley, Sheila A. ;

Luks, Francois I. ;

Mao, Quanfu .

AMERICAN JOURNAL OF PATHOLOGY, 2008, 173 (01) :42-56

[10]

DOETSCHMAN TC, 1985, J EMBRYOL EXP MORPH, V87, P27

← 1 2 3 4 5 →