Folate metabolism in the female weanling rat

The metabolism of a mixture of [2-14C] and [3',5',7,9-3H] folic acid was studied in female weanling rats. Intact folates and folate catabolites were excreted in the urine. Folate polyglutamates were found in the tissues. Rats treated with the oestrogen diethylstilbestrol and 17 -ethynyloestradiol exhibited marked changes in the metabolic handling of folic acid and folate catabolism was greatly increased compared to controls. Allopurinol treatment gave greater label retention in the gut, with a substantial increase in catabolism compared to normals. A dose response relationship was illustrated between allopurinol dose and folate catabolism. After lead acetate dosing there was little radioactivity in the urine and tissues over 72h and more radioactivity was retained in the faeces compared to normals. Excretion of intact folates was depressed, especially 5MeTHF and 10CHOTHF. A tenfold increase in both lead and folic acid dosage resulted in an even further decrease of radioactivity in the tissues and urine over 72h. Excretion in the faeces was further elevated. Ferrous sulphate administration resulted in increased catabolism. The retention of radioactivity in the liver, kidney and gut was greatly reduced. A new method of folate analysis; Sephadex LH-20 was introduced. In vitro superoxide anion formation was illustrated using an allopurinol/xanthine oxidase system. Histological studies were employed to qualitatively and quantitatively illustrate the oxidative status in livers and brains of allopurinol and ferrous sulphate dosed rats. Increased dose related formazan deposition was observed when livers of pretreated animals were incubated with nitroblue tetrazolium. Formazan deposition was reduced in pretreated animals also treated with the anti-oxidants vitamin E, mannitol or 4-hydroxy-methyl-4,6-ditertiary-butylphenol. A possible route of folate catabolism is scission by a non-enzymic oxidation involving active oxygen species.

Is inflammation the cause of pre-eclampsia?

It has been proposed that either excessive inflammation or an imbalance in angiogenic factors cause pre-eclampsia. In the present review, the arguments for and against the role of inflammation and/or angiogenic imbalance as the cause of pre-eclampsia are discussed on the basis of the Bradford-Hill criteria for disease causation. Although both angiogenic imbalance and systemic inflammation are implicated in pre-eclampsia, the absence of temporality of inflammatory markers with pre-eclampsia challenges the concept that excessive inflammation is the cause of pre-eclampsia. In contrast, the elevation of anti-angiogenic factors that precede the clinical signs of pre-eclampsia fulfils the criterion of temporality. The second most important criterion is the dose-response relationship. Although such a relationship has not been proven between pro-inflammatory cytokines and pre-eclampsia, high levels of anti-angiogenic factors have been shown to correlate with increased incidence and disease severity, hence satisfying this condition. Finally, as the removal of circulating sFlt-1 (soluble Fms-like tyrosine kinase receptor-1) from pre-eclamptic patients significantly improves the clinical outcome, it fulfils the Hill's experiment principle, which states that removal of the cause by an appropriate experimental regimen should ameliorate the condition. In contrast, treatment with high doses of corticosteroid fails to improve maternal outcome in pre-eclampsia, despite suppressing inflammation. Inflammation may enhance the pathology induced by the imbalance in the angiogenic factors, but does not by itself cause pre-eclampsia. Development of therapies based on the angiogenic and cytoprotective mechanisms seems more promising.

Effect of a protein and energy dense n-3 fatty acid enriched oral supplement on loss of weight and lean tissue in cancer cachexia:A randomised double blind trial

Aim: N-3 fatty acids, especially eicosapentaenoic acid (EPA), may possess anticachectic properties. This trial compared a protein and energy dense supplement enriched with n-3 fatty acids and antioxidants (experimental: E) with an isocaloric isonitrogenous control supplement (C) for their effects on weight, lean body mass (LBM), dietary intake, and quality of life in cachectic patients with advanced pancreatic cancer. Methods: A total of 200 patients (95 E; 105 C) were randomised to consume two cans/day of the E or C supplement (480 ml, 620 kcal, 32 g protein ± 2.2 g EPA) for eight weeks in a multicentre, randomised, double blind trial. Results: At enrolment, patients' mean rate of weight loss was 3.3 kg/month. Intake of the supplements (E or C) was below the recommended dose (2 cans/day) and averaged 1.4 cans/day. Over eight weeks, patients in both groups stopped losing weight (Δweight E: -0.25 kg/month versus C: -0.37 kg/month; p=0.74) and LBM (ΔLBM E: +0.27 kg/month versus C: +0.12 kg/month; p=0.88) to an equal degree (change from baseline E and C, p<0.001). In view of evident non-compliance in both E and C groups, correlation analyses were undertaken to examine for potential dose-response relationships. E patients demonstrated significant correlations between their supplement intake and weight gain (r=0.50, p<0.001) and increase in LBM (r=0.33, p=0.036). Such correlations were not statistically significant in C patients. The relationship of supplement intake with change in LBM was significantly different between E and C patients (p=0.043). Increased plasma EPA levels in the E group were associated with weight and LBM gain (r=0.50, p<0.001; r=0.51, p=0.001). Weight gain was associated with improved quality of life (p<0.01) only in the E group. Conclusion: Intention to treat group comparisons indicated that at the mean dose taken, enrichment with n-3 fatty acids did not provide a therapeutic advantage and that both supplements were equally effective in arresting weight loss. Post hoc dose-response analysis suggests that if taken in sufficient quantity, only the n-3 fatty acid enriched energy and protein dense supplement results in net gain of weight, lean tissue, and improved quality of life. Further trials are required to examine the potential role of n-3 enriched supplements in the treatment of cancer cachexia.

Effect of cancer cachexia on the activity of tripeptidyl-peptidase II in skeletal muscle

The ubiquitin-proteasome proteolytic pathway plays a major role in degradation of myofibrillar proteins in skeletal muscle during cancer cachexia. The end-product of this pathway is oligopeptides and these are degraded by the extralysomal peptidase tripeptidyl-peptidase II (TPPII) together with various aminopeptidases to form tripeptides and amino acids. To investigate if a relationship exists between the activity of the proteasome and TPPII, functional activities have been measured in gastrocnemius muscle of mice bearing the MAC16 tumour, and with varying extents of weight loss. TPPII activity was quantitated using the specific substrate Ala-Ala-Phe-7-amido-4-methylcoumarin, while proteasome activity was determined as the 'chymotrypsin-like' enzyme activity. Both proteasome proteolytic activity and TPPII activity increased in parallel with increasing weight loss, reaching a maximum at 16% weight loss, after which there was a progressive decrease in activity for both proteases with increasing weight loss. In murine myotubes, proteolysis-inducing factor, which is a sulphated glycoprotein produced by cachexia-inducing tumours, induced an increase in activity of both proteasome and TPPII, with an identical dose-response curve, and both activities were inhibited by eicosapentaenoic acid. These results suggest that the activities of both the proteasome and TPPII are regulated in a parallel manner in cancer cachexia, and that both are induced by the same factor and probably have the same intracellular signalling pathways and transcription factors. © 2004 Elsevier Ireland Ltd. All rights reserved.