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Early postnatal dexamethasone influences matrix metalloproteinase‐2 and ‐9, and their tissue inhibitors in the developing rat lung
Author(s) -
Valencia Arwin M.,
Beharry Kay D.,
Ang Jorge G.,
Devarajan Kamakshi,
Van Woerkom Richard,
Abrantes Maria,
Nishihara Kenji,
Chang Eileen,
Waltzman Joshua,
Modanlou Houchang D.
Publication year - 2003
Publication title -
pediatric pulmonology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.866
H-Index - 106
eISSN - 1099-0496
pISSN - 8755-6863
DOI - 10.1002/ppul.10293
Subject(s) - dexamethasone , medicine , lung , endocrinology , matrix metalloproteinase , weaning , saline
In order to test the hypothesis that early postnatal exposure to dexamethasone (Dex) influences matrix metalloproteinases (MMP)‐2 and ‐9, as well as their tissue inhibitors (TIMP‐1 and ‐2) in the developing rat lung, newborn rats (3 litters/group) were treated with low Dex (0.1 mg/kg/day, IM), high Dex (0.5 mg/kg/day), or equivalent volumes of saline at 5 days postnatal age (P5), P6, and P7. Lung weight and lung MMP and TIMP levels were determined at sacrifice (7 days postinjection, P14; at weaning, P21; and at adolescence, P45, n = 10/group and time). Dex did not adversely affect lung weight or lung MMP‐2 levels, which peaked in all groups at P21 and then fell by P45. In contrast, Dex decreased TIMP‐2 at all time intervals, but achieved statistical significance only at P45. An imbalance in MMP‐2/TIMP‐2 ratio was noted at P21, with elevations occurring in the low and high Dex‐treated groups. Lung MMP‐9 levels remained comparable with controls during low Dex treatment. However, high Dex exposure resulted in elevated lung MMP‐9 levels at P21 and P45. Lung TIMP‐1 levels increased only with high Dex exposure at P14 and P21, whereas the lung MMP‐9/TIMP‐1 ratio was elevated at P21 in the high Dex group, and at P45 in both Dex‐treated groups. These data provide evidence that early postnatal dexamethasone results in an imbalance between gelatinase‐A and ‐B, and their tissue inhibitors in the developing rat lung. These changes may be responsible, in part, for some of the known maturational effects of steroids on lung structure in the newborn. Pediatr Pulmonol. 2003; 35:456–462. © 2003 Wiley‐Liss, Inc.

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