Metabolic Adaptation in Developing Lung

Warshaw, Joseph B.; Terry, Mary L.; Ranis, Michael B

doi:10.1203/00006450-198004000-00007

Cited by 13 publications

(9 citation statements)

References 12 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The capacity of kidney to oxidize palmitate increases after birth, the highest values being observed on day 5. A similar developmental pattern has been demonstrated for long chain fatty acids oxidation with fetal heart [11,15], liver [1,8], brain [12] and lung [13]. In fetal heart the first step of fatty acids activation appears to be rate-limiting for palmitate oxidation [2].…”

Section: Discussionmentioning

confidence: 85%

“…In fetal liver both palmityl-CoA synthetase [10] and palmityl-carnityl transferase [1,8] activities have been found to increase sharply immediately after birth, concomitantly with palmitate oxidation into CO2. Lung palmi tate oxidation into CO2 shows a striking postnatal increase [ 13] parallel to the increase in palmityl-carnityl transferase and cyto chrome oxydase. In our experiments the rise of palmitate concentration in the medium (1.5 instead of 0.5 mM ) increases the palmi tate uptake by fetal kidney slices whereas it does not change palmitate oxidation.…”

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Fatty Acid Oxidation by Developing Rat Kidney

Freund¹,

Sedraoui²,

Geloso³

1984

Neonatology

View full text Add to dashboard Cite

In view of the importance of free fatty acids (FFA) as substrates for the mature kidney, fatty acid oxidation by developing rat kidney has been investigated in vitro. Incubations of kidney slices from fetal stages (days 20 and 21 of gestation) and from days 1, 5, 10, 20, and 30 after birth have been carried out in Krebs-phosphate, pH 7.4, containing 0.5 or 1.5 mM/ U-¹⁴C-palmitate. Palmitate uptake and oxidation into CO₂ were measured after 90 min incubation. At 0.5 mM concentration of palmitate in the incubation medium, fetal kidney exhibited a low uptake and a very low oxidation of palmitate into CO₂. These two parameters increased only after birth and were maximum with slices from suckling rats between days 5 and 10 after birth. Palmitate oxidation increased only with postnatal days slices (maximum during the suckling period) and not with fetal slices. An increase in palmitate oxidation could be obtained with slices from kidneys of fetuses whose mothers had been starved 48h. These data suggest that the development of renal capacity for FFA oxidation during the perinatal period could be related to nutritional supply.

show abstract

Section: Discussionmentioning

confidence: 85%

Section: Discussionmentioning

confidence: 99%

Fatty Acid Oxidation by Developing Rat Kidney

Freund¹,

Sedraoui²,

Geloso³

1984

Neonatology

View full text Add to dashboard Cite

show abstract

“…Since the tissue slice has been widely used to study hormonehubstrate influences on overall metabolic activity in the fetal lung and is highly reproducible [ 10,13,[17][18][19] , this preparation was employed to assess relative utilization of exogenously supplied substrates at different times in perinatal lung development. Some damage is sustained by the tissue during the slicing procedure and thus rates are probably somewhat altered from that of the tissue in vivo but serve as a good approximation.…”

Section: Tissue Incubationmentioning

confidence: 99%

Integrated Substrate Utilization by Perinatal Lung

Patterson

Koniki

Selig

et al. 1986

Experimental Lung Research

View full text Add to dashboard Cite

The aims of this study were to examine the pattern and relative utilization of exogenously supplied substrates by the perinatal rat lung and to study their functional relationship at a key period of lung maturation (3 days before birth until one day after birth). Maximal incorporation of 14C-labeled substrates (glucose, lactate, glycerol, and beta-hydroxybutyrate) from the media into lung lipids occurred one day before birth and corresponded to maximal incorporation of 14C-choline into disaturated phosphatidylcholine (DSPC) (63 n moles X hr-1 X g-1), and to maximal increase in tissue DSPC concentration. Whereas, 14C-palmitate utilization for phospholipid synthesis was refractory to changes in DSPC synthesis. Lactate was shown to be a key substrate in fetal lung. When lactate and glucose were supplied at physiological concentrations, lactate: 1) provided 60% of the carbons for de novo fatty acid synthesis compared to only 9% from glucose, 2) produced 5 times more CO2 than glucose (23.9 vs. 4.9 u moles CO2 X hr-1 X g-1) and 3) altered the major fate of glucose incorporated into lung lipid from the fatty acid moiety to the glycerol moiety. Glycerol and palmitate were relatively unimportant energy fuels in the perinatal lung.

show abstract

“…Similarly, compared to adults, the rate of palmitate oxidation is reduced in skeletal muscle homogenates (Glatz and Veerkamp, 1982 ;Carroll et al, 1983 ;Wolfe, Maxwell and Nelson, 1978 ;Mac Larty et al, 1984) and in kidney slices (Wolfe, Maxwell and Nelson, 1978 ;Freund, Sedraoui and Geloso, 1984), lung (Warshaw, Terry and Ranis, 1980) and small intestine (Warshaw, 1974) of fetal rats and pigs. As the rate of oxidation of octanoate, octanoylcarnitine or palmitoylcarnitine is similar in the heart of fetal, newborn and adult pigs and calves (Werner et al, 1983a, b ;Warshaw and Terry, 1970), it has been suggested that the reduced capacity of the fetal tissues to oxidize long-chain fatty acids could result from the low activity of carnitine acyltransferase I (Warshaw, 1972 ;Carroll et al, 1983 ;Delaval et al, 1984).…”

Section: Introductionmentioning

confidence: 99%

“…A rise in this activity occurs immediately after birth in the heart (Wittels and Bressler, 1965 ;Warshaw, 1972 ;Lockwood and Bailey, 1970 ;Barrie and Harris, 1977), skeletal muscle (Carroll et al, 1983), lung (Warshaw, Terry and Ranis, 1980) and kidney (Delaval et al, 1984) of rats and remains elevated throughout the suckling period. However, CAT activity does not change with age in the heart, leg muscles and kidney of pigs, although palmitate oxidation increases 2 to 3-fold (Wolfe, Maxwell and Nelson, 1978).…”

Section: Introductionmentioning

confidence: 99%