A. G. Morton scite author profile

A. G. Morton

5Publications

53Citation Statements Received

55Citation Statements Given

How they've been cited

122

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MRC Clinical Trials Unit

Publications

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The Role of Iron in the Regulation of Hepatic Transferrin Synthesis

Morton¹,

Tavill²

1977

Br J Haematol

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The role of iron supply in the regulation of hepatic transferrin synthesis by the isolated perfused rat liver was studied using nutritional iron deficiency as the experimental model. The increased transferrin release encountered in iron deficiency could be equated with enhanced de novo synthesis as evidenced by the inhibitory effects of cycloheximide and measurements of intrahepatic protein pools before and after perfusion. Refeeding with iron, sufficient to restore plasma iron and hepatic ferritin iron but before correction of anaemia, promoted a reduction towards normal in the transferrin synthetic rate. This effect was not produced by transfusional correction of the anaemia, suggesting a specific response to iron supply. Phenobarbitone treatment, which produced a marked fall in hepatic ferritin iron concentration but no change in haemoglobin or plasma iron concentrations, promoted a specific enhancement of transferrin synthesis in both control and iron deficient livers. The concentration of liver iron stores appears to be a major regulatory factor in the control of hepatic transferrin synthesis.

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The Regulation of Iron Release from the Perfused Rat Liver

Baker¹,

Morton²

1980

Br J Haematol

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Factors affecting iron efflux from the isolated perfused rat liver were studied following the intravenous administration of transferrin-(59)Fe or transferrin-(55)Fe administered to the rat from 1.5 h to 3.5 d before perfusion of the liver. The liver was perfused with rat red cells suspended either in rat plasma or Eagle's Basal Medium (EBM). The mean rate of efflux into a plasma pool containing normal iron and transferrin concentrations was 0.9% of the initial hepatic radioactive iron pool per hour. In EBM the average rate of efflux was 0.1%/h and this could be increased to the rate observed with plasma by the addition of apotransferrin. The rate of iron release from the liver in the presence of apotransferrin or other chelators was inversely proportional to the time of prelabelling. Maximal release rates were observed in livers perfused within 5 h of administering transferrin-(59)Fe to the rat. The effect of apotransferrin on efflux into EBM was concentration dependent. However, the maximum release of liver iron by apotransferrin occurred at physiological apotransferrin concentrations and addition of apotransferrin to plasma produced no increase in the rate of iron efflux. The stimulation of iron release in EBM caused by apotransferrin could be reversed by reducing the unsaturated iron binding capacity of the perfusate, either by addition of iron or removal of apotransferrin. However, increasing the iron concentration in the perfusate by the addition of iron-saturated transferrin without any reduction in the unsaturated iron binding capacity additionally increased iron release into plasma and EBM. This presumably reflects the exchange of plasma transferrin-(56)Fe for liver (59)Fe. Hence iron release measured in these studies represent the sum of two processes-net release of (59)Fe induced by apotransferrin and iron exchange between plasma and liver iron pools. Apotransferrin and desferrioxamine were equally effective, per unit iron binding capacity, in mobilizing liver iron, and may compete for the same parenchymal iron pool. This suggests that mobilization of iron by apotransferrin may depend solely on its ability to chelate ferric iron and not on a more specific ferroxidase activity or interaction with membrane receptors.

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The Control of Hepatic Iron Uptake: Correlation with Transferrin Synthesis

Morton¹

1978

Br J Haematol

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The control of hepatic iron uptake was studied in the perfused liver isolated from rats subjected to nutritional iron deficiency. The total hepatic iron uptake and incorporation into ferritin was found to be higher in iron deficiency and during the 48 h of oral refeeding with iron than in the normal state. Specific incorporation of iron into feritin from a perfusate of normal transferrin iron saturation was enhanced in nutritional iron deficiency as compared to controls after 5 h of perfusion but not after 1 h, suggesting that increased uptake of iron from the perfusate may play a role in stimulating hepatic ferritin synthesis and assembly. This promotion of uptake into ferritin was inhibited by cycloheximide suggesting that enhanced incorporation of iron is dependent upon de novo synthesis of apoferritin. In control, nutritionally iron deficient and iron-refed rats there was a significant, direct correlation between the transferrin-iron saturation of the perfusate at physiological transferrin concentrations and total hepatic iron uptake after 5 h perfusion. A significant positive correlation was found between the hepatic total and ferritin iron uptake and the transferrin synthetic rate measured in the same liver. It is proposed that in the liver the negative feedback of iron supply on transferrin synthesis may be linked with a positive feedback on ferritin synthesis. The time-course of these reciprocal responses suggests a role for hepatic ferritin and/or a component of the non-haem, non-ferritin iron pool in the regulation of transferrin synthesis.

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Studies on regulatory factors in transferrin metabolism in man and the experimental rat

Morton¹,

Hamilton²,

Ramsden³

1976

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A Suggested Mechanism for the Role of Iron in Hepatic Transferrin Synthesis

Morton

1975

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A. G. Morton

The Role of Iron in the Regulation of Hepatic Transferrin Synthesis

The Regulation of Iron Release from the Perfused Rat Liver

The Control of Hepatic Iron Uptake: Correlation with Transferrin Synthesis

Studies on regulatory factors in transferrin metabolism in man and the experimental rat

A Suggested Mechanism for the Role of Iron in Hepatic Transferrin Synthesis

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