Pierre L van Zijl scite author profile

9-[3-(N,N-dimethylamino)propylamino]acridine (DAPA) was dramatically slower than urea. Modelling this over the first 5 h gave a DMM of 1.3 x 10-cm2 s-1, but over longer times the kinetics was not consistent with simple diffusion. Flux of DAPA was markedly increased in the presence of 50 mm ammonium chloride, indicating that sequestration in acidic endosomes is a major impediment to flux. Accumulation in cytoplasmic vesicles was confirmed by fluorescence microscopy. The DAPA flux kinetics, with and without ammonium chloride, was well fitted by a reaction-diffusion model with reversible cellular uptake (modelled as binding), using uptake parameters determined in separate experiments with V79-171 b single-cell suspensions. This study demonstrates the utility of the MM model for determining extravascular transport parameters, and indicates that much of the impediment to diffusion of basic DNA intercalators in tumour tissue may arise from lysosomal sequestration rather than DNA binding.

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Tirapazamine-induced DNA damage measured using the comet assay correlates with cytotoxicity towards hypoxic tumour cells in vitro

Siim

Zijl²,

Brown³

1996

Br J Cancer

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Summary Tirapazamine (SR 4233), a bioreductive drug selectively toxic towards hypoxic cells, is presently in phase II clinical trials. Since it would not be expected that all tumours would respond equally to the drug, we are exploring ways of predicting the response of individual tumours. In this study we have tested whether the comet assay, which measures DNA damage in individual cells, can provide a simple, surrogate end point for cell killing by tirapazamine. We examined the relationship between the cytotoxicity of tirapazamine under hypoxic conditions and tirapazamine-induced DNA strand breaks in murine (SCCVII, EMT6, RIF-1) and human (HT1080, A549, HT29) tumour cell lines. These results were compared with the relationship between tirapazamine cytotoxicity and another measure of the ability of cells to metabolise tirapazamine; highperformance liquid chromatography (HPLC) analysis of tirapazamine loss or formation of the two electron reduction product SR 4317. The correlation between the hypoxic cytotoxic potency of tirapazamine and DNA damage was highly significant (r=0.905, P=0.013). A similar correlation was observed for hypoxic potency and tirapazamine loss (r=0.812, P=0.050), while the correlation between hypoxic potency and SR 4317 formation was not significant (r=0.634, P=0.171). The hypoxic cytotoxicity of tirapazamine in vitro can therefore be predicted by measuring tirapazamine-induced DNA damage using the comet assay. This approach holds promise for predicting the response of individual tumours to tirapazamine in the clinic.

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Arginine and Mixed Amino Acids Increase Protein Accretion in the Growth-Restricted and Normal Ovine Fetus by Different Mechanisms

et al. 2005

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Protein metabolism may be perturbed in intrauterine growth restriction (IUGR). Arginine is indispensable for growth and nitrogen balance in young mammals. Fetuses with IUGR therefore may benefit from arginine supplementation. The purpose of this study was to determine 1) the effects of IUGR on protein metabolism in the ovine fetus and 2) the effects of arginine or mixed amino acid (AA) infusion on protein metabolism in these fetuses. Pregnant ewes and their fetuses were catheterized at 110 d gestation and randomly assigned to control or IUGR groups. IUGR was induced by repetitive placental embolization. Parameters of fetal protein metabolism were determined from [ring-2 H 5 ]phenylalanine kinetics at baseline and in response to a 4-h infusion of either arginine or an isonitrogenous AA mixture. There were no differences in protein metabolism between control and IUGR groups either at baseline or in response to arginine or AA treatment. Both arginine and AA infusion increased fetal protein accretion in both groups. Arginine did this by decreasing protein turnover, synthesis, and breakdown. AAs increased protein turnover and synthesis while decreasing protein breakdown. AA infusion resulted in a significantly higher increase in protein accretion than arginine infusion. Thus, in the ovine fetus, placental embolization has no clear effect on protein metabolism. Arginine and AAs both stimulate protein accretion but do so in distinctly different ways. Mixed AA infusion has a greater effect on protein accretion than arginine alone and therefore may be a better strategy for stimulating fetal growth. Intrauterine growth restriction (IUGR) is a major cause of perinatal mortality and morbidity (1,2). Although there are many possible causes, the key feature of IUGR is impaired fetal growth and, hence, by inference, impaired protein accretion. However, there are few data describing the alterations in protein metabolism that must underlie IUGR.In the IUGR human neonate, the few studies available are conflicting (3-5). Protein accretion rates are reported to be normal, although both increased (3,4) and reduced (5) protein synthesis and turnover have been reported. A previous study on protein kinetics in the ovine fetus in which growth was restricted by heat stress showed no significant changes in protein synthesis, breakdown, or accretion (6). However, a number of reports provide indirect evidence of altered protein metabolism in human fetuses with IUGR. In human pregnancies that are complicated with IUGR, fetal plasma AA concentrations are reduced (7,8), and this persists after birth (9). Concentrations of most essential AAs are lower, particularly those of the branched-chain AAs valine, isoleucine, and leucine (7,9). The maternal plasma AA concentrations are higher than in uncomplicated pregnancies and often not significantly different from nonpregnant controls (8).There is also indirect evidence of impaired urea production in association with IUGR. Plasma and urinary urea levels are

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Amniotic IGF-I supplements improve gut growth but reduce circulating IGF-I in growth-restricted fetal sheep

Bloomfield

Bauer

Zijl

et al. 2002

American Journal of Physiology-Endocrinology and Metabolism

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Insulin-like growth factor I (IGF-I) is an important regulator of fetal growth, and circulating concentrations are reduced in intrauterine growth-restricted (IUGR) fetuses. We investigated whether IGF-I administered into amniotic fluid could ameliorate IUGR in fetal sheep. Fetuses were assigned to control ( n = 9), IUGR+saline ( n = 12), or IUGR+IGF-I groups (daily intra-amniotic IGF-I injections of 20 μg, n = 13). IUGR was induced by placental embolization from 114 to 120 days. Treatment was from 120 to 130 days of gestation. Embolization produced asymmetrically IUGR fetuses with decreased body weight and lighter, thinner-walled guts. Fetal plasma and amniotic IGF-I levels were reduced. During treatment, fetal plasma, but not amniotic, IGF-I levels recovered in the saline group but remained depressed in the IGF-I-treated group. IGF-I treatment restored gut weight and wall thickness to control levels and increased the number of crypt mitoses. Fetal weight was similar to that of controls, but spleen, liver, and thymic weights were reduced by 30–37%, and placentome growth was altered. Amniotic fluid IGF-I supplementation may provide the basis of future therapeutic approaches to IUGR, but the systemic effects require further investigation.

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Maternal Undernutrition during the Periconceptual Period Increases Plasma Taurine Levels and Insulin Response to Glucose But Not Arginine in the Late Gestational Fetal Sheep

Oliver

Hawkins

Breier

et al. 2001

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Maternal undernutrition throughout gestation impairs pancreatic function in the offspring. The influence of periconceptual maternal undernutrition on fetal insulin responses to secretogues in late gestation is unknown. Romney ewes were fed concentrates at 1-2% of body weight/d (UN) or 3-4% of body weight/d (N) from -61 d to +30 d from mating. From 30 d gestation all ewes were fed at 3-4% of body weight/d. At 119 d gestation singleton fetuses (UN; n = 12, N; n = 10) underwent intravenous glucose (1.5 g) and arginine (300 mg) challenge tests. Paired maternal and fetal blood samples were collected over 60 min. Fetal plasma insulin area under the curve (AUC) was larger in UN than in N fetuses during glucose challenge (4.5 +/- 0.6 vs. 2.9 +/- 0.5 nM, p < 0.05) but was not different during arginine challenge. Maternal and fetal plasma taurine concentrations were higher in UN than N (maternal; 110 +/- 11 vs. 75 +/- 8 microM, fetal; 99 +/- 13 vs. 56 +/- 5 microM, both p < 0.05). Maternal periconceptual undernutrition influences fetal insulin secretion without affecting fetal size. The larger plasma insulin responses in UN fetuses could reflect accelerated maturation of pancreatic beta cells or an alteration of other mechanisms regulating insulin secretion. The role of taurine in fetal pancreatic beta cell development requires further investigation.

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Pierre L van Zijl

An experimental and mathematical model for the extravascular transport of a DNA intercalator in tumours

Tirapazamine-induced DNA damage measured using the comet assay correlates with cytotoxicity towards hypoxic tumour cells in vitro

Arginine and Mixed Amino Acids Increase Protein Accretion in the Growth-Restricted and Normal Ovine Fetus by Different Mechanisms

Amniotic IGF-I supplements improve gut growth but reduce circulating IGF-I in growth-restricted fetal sheep

Maternal Undernutrition during the Periconceptual Period Increases Plasma Taurine Levels and Insulin Response to Glucose But Not Arginine in the Late Gestational Fetal Sheep

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