Changes in pulmonary expression of hexokinase and glucose transporter mRNAs in rats adapted to hyperoxia

被引：25

作者：

Allen, CB

Guo, XL

White, CW

机构：

[1] Natl Jewish Med & Res Ctr, Dept Pediat, Denver, CO 80206 USA

[2] Univ Colorado, Hlth Sci Ctr, Denver, CO 80206 USA

来源：

AMERICAN JOURNAL OF PHYSIOLOGY-LUNG CELLULAR AND MOLECULAR PHYSIOLOGY | 1998年 / 274卷 / 03期

关键词：

messenger ribonucleic acid; lung; glycolysis; monosaccharide; transport proteins; energy metabolism;

D O I：

10.1152/ajplung.1998.274.3.L320

中图分类号：

Q4 [生理学];

学科分类号：

071003 ;

摘要：

Impairment of lung aconitase activity, citric acid cycle, and mitochondrial respiration by hyperoxia necessitates the elevation of glycolysis for energy production and of pentose shunt activity for reducing equivalents. The molecular mechanisms that allow increased glucose utilization are unknown. Adult male and female rats were adapted to sublethal hyperoxia, equivalent to 83% oxygen at sea level, or air for 7 days. Lung RNA and protein increased in hyperoxia (197 and 57%, respectively), whereas total DNA was unchanged. In hyperoxia, lung total hexokinase (HX) activity increased threefold, and mRNAs for HK-II and -III were specifically upregulated. HK-I mRNA was unchanged. mRNAs for HK-II and -III gradually increased during the first 72 h in hyperoxia. HK-II mRNA was significantly elevated at 72 h, preceding changes in lung cell populations. Although virtually absent in air, HK-II activity was highly expressed in hyperoxia. Among lung glucose transporters, specific expression of mRNAs for GLUT-4 (insulin dependent) and sodium-glucose cotransporter-1 was decreased, whereas that for GLUT-1 was minimally changed. Adaptation to hyperoxia involves coordinated changes in gene expression for the proteins regulating pulmonary glucose transport.

引用

页码：L320 / L329

页数：10

共 49 条

[1] Glucose modulates cell death due to normobaric hyperoxia by maintaining cellular ATP [J].

Allen, CB ;

White, CW .

AMERICAN JOURNAL OF PHYSIOLOGY-LUNG CELLULAR AND MOLECULAR PHYSIOLOGY, 1998, 274 (01) :L159-L164

[2] EFFECT OF OXYGEN-TENSION ON GROWTH AND METABOLISM OF WI-38 CELLS [J].

BALIN, AK ;

GOODMAN, DBP ;

RASMUSSEN, H ;

CRISTOFALO, VJ .

JOURNAL OF CELLULAR PHYSIOLOGY, 1976, 89 (02) :235-249

[3] NORTHERN BLOT NORMALIZATION WITH A 28S RIBOSOMAL-RNA OLIGONUCLEOTIDE PROBE [J].

BARBU, V ;

DAUTRY, F .

NUCLEIC ACIDS RESEARCH, 1989, 17 (17) :7115-7115

[4] FLUID ABSORPTION BY RAT LUNG INSITU - PATHWAYS FOR SODIUM ENTRY IN THE LUMINAL MEMBRANE OF ALVEOLAR EPITHELIUM [J].

BASSET, G ;

CRONE, C ;

SAUMON, G .

JOURNAL OF PHYSIOLOGY-LONDON, 1987, 384 :325-345

[5] PYRUVATE METABOLISM OF PERFUSED RAT LUNGS AFTER EXPOSURE TO 100-PERCENT OXYGEN [J].

BASSETT, DJP ;

BOWENKELLY, E .

JOURNAL OF APPLIED PHYSIOLOGY, 1986, 60 (05) :1605-1609

[6] TRICARBOXYLIC-ACID CYCLE ACTIVITY IN PERFUSED RAT LUNGS AFTER O-2 EXPOSURE [J].

BASSETT, DJP ;

REICHENBAUGH, SS .

AMERICAN JOURNAL OF PHYSIOLOGY, 1992, 262 (04) :L495-L501

[7] PENTOSE CYCLE ACTIVITY OF ISOLATED PERFUSED RAT LUNG [J].

BASSETT, DJP ;

FISHER, AB .

AMERICAN JOURNAL OF PHYSIOLOGY, 1976, 231 (05) :1527-1532

[8] RAT LUNG GLUCOSE-METABOLISM AFTER 24-H OF EXPOSURE TO 100-PERCENT OXYGEN [J].

BASSETT, DJP ;

BOWENKELLY, E ;

REICHENBAUGH, SS .

JOURNAL OF APPLIED PHYSIOLOGY, 1989, 66 (02) :989-996

[9]

Beutler E., 1975, A manuel of biochemical methods, V2nded

[10] IDENTIFICATION OF A NOVEL GENE ENCODING AN INSULIN-RESPONSIVE GLUCOSE TRANSPORTER PROTEIN [J].

BIRNBAUM, MJ .

CELL, 1989, 57 (02) :305-315

← 1 2 3 4 5 →