A functional model for feline P-glycoprotein.

P-gp (ABCB1) belongs to the group of export transporters that is expressed in various species at biological barriers. Inhibition of P-gp can lead to changes in pharmacokinetics of drugs (drug-drug interactions), which can lead to toxicity and adverse side effects. This study aimed to establish a functional assay to measure the inhibitory potential of veterinary drugs on feline P-gp by means of fluorescence-associated flow cytometry of feline lymphoma cells. In this model, PSC833 and ivermectin potently inhibited P-gp function; cyclosporine and verapamil moderately inhibited P-gp function, whereas ketoconazole, itraconazole, diazepam, and its metabolites had no effect on P-gp function. This model can be used for testing the inhibitory potency of (new) drugs on feline P-gp.

Comparing the glucuronidation capacity of the feline liver with substrate-specific glucuronidation in dogs.

This study aimed to assess the overall glucuronidation capacity of cats, using prototypic substrates identified for human UDP-glucuronosyltransferases (UGTs). To this end, Michaelis-Menten kinetics were established for the substrates using feline hepatic microsomal fractions, and results were compared with similar experiments carried out with dog liver microsomes. Cats are known for their low capacity of glucuronide formation, and UGT1A6 was found to be a pseudogene. However, functional studies with typical substrates were not performed and knowledge of the enzymology and genetics of other glucuronidation enzymes in felidae is lacking. The results of this study showed extremely low formation of naphthol-1-glucuronide (1.7 ± 0.4 nmol/mg protein/min), estradiol-17-glucuronide (<0.7 nmol/mg protein/min), and morphine-3-glucuronide (0.2 ± 0.03 nmol/mg protein/min), suggesting a lack of functional UGT1A6 and UGT2B7 homologues in the cat's liver. Dog liver microsomes were producing these glucuronides in much higher amounts. Glucuronide capacity was present for the substrates 17ß-estradiol (estradiol-3-glucuronide, 2.9 ± 0.2 nmol/mg protein/min) and 4-methylumbelliferone (31.3 ± 3.3 nmol/mg protein/min), assuming that cats have functional homologue enzymes to at least the human UGT1A1 and probably other UGT1A isozymes. This implies that for new drugs, glucuronidation capacity has to be investigated on a substance-to-substance base. Knowledge of the glucuronidation rate of a drug provides the basis for pharmacokinetic modeling and as a result proper dosage regimens can be established to avoid undesirable drug toxicity in cats.

Cytochrome P450-mediated hepatic metabolism of new fluorescent substrates in cats and dogs.

This study aimed to investigate the biotransformation of cat liver microsomes in comparison to dogs and humans using a high throughput method with fluorescent substrates and classical inhibitors specific for certain isozymes of the human cytochrome P450 (CYP) enzyme family. The metabolic activities associated with CYP1A, CYP2B, CYP2C, CYP2D, CYP2E and CYP3A were measured. Cat liver microsomes metabolized all substrates selected for the assessment of cytochrome P450 activity. The activities associated with CYP3A and CYP2B were higher than the activities of the other measured CYPs. Substrate selectivity could be demonstrated by inhibition studies with α-naphthoflavone (CYP1A), tranylcypromine/quercetine (CYP2C), quinidine (CYP2D), diethyldithiocarbamic acid (CYP2E) and ketoconazole (CYP3A) respectively. Other prototypical inhibitors used for characterization of human CYP activities such as furafylline (CYP1A), tranylcypromine (CYP2B) and sulfaphenazole (CYP2C) did not show significant effects in cat and dog liver microsomes. Moreover, IC50-values of cat CYPs differed from dog and human CYPs underlining the interspecies differences. Gender differences were observed in the oxidation of 7-ethoxy-4-trifluoromethylcoumarin (CYP2B) and 3-[2-(N, N-diethyl-N-methylamino)ethyl]-7-methoxy-4-methylcoumarin (CYP2D), which were significantly higher in male cats than in females. Conversely, oxidation of the substrates dibenzylfluorescein (CYP2C) and 7-methoxy-4-trifluoromethylcoumarin (CYP2E) showed significant higher activities in females than in male cats. Overall CYP-activities in cat liver microsomes were lower than in those from dogs or humans, except for CYP2B. The presented difference between feline and canine CYP-activities are useful to establish dose corrections for feline patients of intensively metabolized drugs licensed for dogs or humans.

Plasma total homocysteine increases from day 20 to 40 in breastfed but not formula-fed low-birthweight infants.

UNLABELLED: Homocysteine is an intermediate in the folate cycle and methionine metabolism. This study investigated whether formula-fed infants have different plasma total homocysteine to their breastfed counterparts, and during what period any difference developed. Plasma total homocysteine was determined in 53 formula-fed and 15 breastfed healthy low-birthweight babies (< or = 2500 g) around days 10, 20 and 40. Total homocysteine was also measured in human milk. Mean +/- SD plasma total homocysteine levels (micromol l(-1)) at days 10, 20 and 40 were 6.4 +/- 2.6, 6.7 +/- 2.4 and 9.1 +/- 2.4 (breastfed), and 7.5 +/- 3.2, 7.3 +/- 2.1 and 7.4 +/- 1.6 (formula-fed). Homocysteine of breastfed babies at day 40 was higher than that of breastfed babies at day 20 (p < 0.0001), and that of formula-fed counterparts at day 40 (p = 0.002). Homocysteine correlated negatively with formula (day 10) and breast milk (day 40) volume intakes. Median (range) homocysteine in 12 mature human milk samples was 0.30 (not detectable to 0.7) micromol l(-1). CONCLUSION: Increasing plasma total homocysteine in breastfed babies to higher levels compared with formula-fed babies may be caused by a gradually developing suboptimal B-vitamin status in lactating women.

Effect of three low-dose fish oil supplements, administered during pregnancy, on neonatal long-chain polyunsaturated fatty acid status at birth.

Adequate long-chain polyunsaturated fatty acid (LCP) status during pregnancy is important. We studied the effect of three low-dose fish oil supplements, administered during uncomplicated pregnancy, on neonatal LCP status at term delivery. Supplements were administered from the second trimester to delivery, either as fish oil capsules ("fish-1": 336 mg LCPomega3, n=15; and "fish-3": 1,008 mg LCPomega3, n=20) or milk-based supplement ("Mum": 528 mg LCPomega3, n=24). Fifty-seven untreated women served as controls. Fatty acids of umbilical veins (UV) and arteries (UA) were measured. The fish-1 group showed no differences, compared to controls. The Mum group had higher 20:5omega3, 22:5omega3, 22:6omega3, LCPomega3 and 22:6omega3/22:5omega6 in UV and UA. The fish-3 group had higher 22:5omega3 and 22:6omega3 (UA), LCPomega3 and 22:6omega3/22:5omega6 (UV and UA) and 20:3omega6 (UV). A 500-1000 mg daily LCPomega3 supplement, taken either as a milk-based supplement or fish oil capsules, effectively increases fetal LCPomega3 status, without affecting LCPomega6 status.

Development of low-birthweight infants at 19 months of age correlates with early intake and status of long-chain polyunsaturated fatty acids.

We investigated the influence of early nutrition with and without long-chain polyunsaturated fatty acids (LCP) on later development of < or = 2500 g newborns receiving preterm formula without LCP (n=75), preterm formula with 18:3omega6 and LCPomega3 (at two doses; n=26) or their mother's own milk (n=27). All diets were given from birth to day 42. Erythrocytes (RBC) fatty-acid compositions were determined on day 42. Bayley's mental development (MDI) and psychomotor development (PDI) indices were assessed at 19 months. Multivariate regression analysis revealed that PDI was most strongly related to RBC 22:6omega3 in the cohort of 101 infants who received formula. The most consistent correlations were between development and early LCPomega3 intake, and between development and parameters of RBC LCPomega3 status day 42, in infants who received formula with 18:3omega6 and LCPomega3. Development of formula-fed low-birthweight infants seems positively influenced by early dietary LCPomega3.

Does supplementation of formula with evening primrose and fish oils augment long chain polyunsaturated fatty acid status of low birthweight infants to that of breast-fed counterparts?

We investigated whether formulae with evening primrose and fish oils raise long chain polyunsaturated fatty acids (LCPUFA) in plasma cholesterol esters (CE), erythrocytes (RBC) and platelets (PLT) to levels encountered in breast-fed infants. Low birthweight infants (< or =2500 g) received LCP1 formula (n = 16; 0.31% 18:3 omega6, 0.17% 20:5 omega3 and 0.20% 22:6 omega3) or LCP2 formula (n = 13; 0.32% 18:3 omega6, 0.34% 20:5 omega3 and 0.43% 22:6 omega3). Fatty acids were measured days 10+/-2, 20+/-3 and 42+/-3. The formulae raised CE, RBC and PLT 20:5 omega3 and 22:6 omega3 dose-dependently (P<0.01), to exceed levels of breast-fed babies (n = 18) day 42 (P<0.05). CE, RBC and PLT 20:3 omega6 was comparable with, and CE, RBC, PLT 20:4 omega6 were below, that of breast-fed infants (P<0.05). Dietary 20:5 omega3 and 22:6 omega3 related with CE, RBC and PLT 20:5 omega3 and 22:6 omega3 (n = 47; P< or =0.01). Dietary 20:5 omega3 and LCPUFA omega3 related inversely with CE, RBC and PLT 20:4 omega6 and LCPUFA omega6 (P< or =0.002). LCP1 and LCP2 fed infants had similar LCPUFA omega6 status day 42. Added 18:3 omega6 does not correct 20:4 omega6 to that of breast-fed infants, but improves 20:3 omega6 status. Fish oil dose-dependently raises 20:5 omega3 and 22:6 omega3, but decreases 20:4 omega6 and other LCPUFA omega6.

Influence of fasting on circulating levels of alpha-tocopherol and beta-carotene. Effect of short-term supplementation.

We investigated the influence of fasting on the levels of alpha-tocopherol in plasma, erythrocytes and platelets, and on plasma beta-carotene. Six apparently healthy adults were subjected to 17-h feed-fasting experiments at various days before, during and after supplementation with alpha-tocopherol (455 mg/day, 41 days) and beta-carotene (25 mg/day, 24 days). Adipose tissue alpha-tocopherol and beta-carotene were measured at regular intervals. Supplementation increased alpha-tocopherol and beta-carotene in all compartments, except for beta-carotene in adipose tissue. Discontinuation caused a rapid return to baseline, except for adipose tissue alpha-tocopherol and plasma beta-carotene. Fasting caused linear increases of free fatty acids, consistent (but small) increases of plasma alpha-tocopherol and inconsistent increases of plasma beta-carotene. There were no fasting-related changes in other compartments. We conclude that fasting is unable to increase alpha-tocopherol and beta-carotene in circulating lipoproteins and cells to a considerable extent, both at baseline levels and after short-term supplementation. Maintenance of high levels may necessitate regular high oral intakes.

Long-chain polyunsaturated fatty acid status and early growth of low birth weight infants.

UNLABELLED: We correlated arachidonic acid (AA) and docosahexaenoic acid (DHA) status with anthropometric measures and growth rates in a group of low birth weight infants (< or = 2500 g; gestational ages 30-41 weeks; n = 143). AA and DHA status were measured in erythrocytes (RBC) and plasma cholesterol esters (CE) during days 10 to 42. Infants received preterm formula without long-chain polyunsaturated fatty acids (LCP; n = 81), with LCP (n = 29) or maternal milk (n = 33). RBC AA contents on day 10 were correlated (P < 0.05) with birth weight in breast-fed infants and all formula-fed infants, with on day 10 a standard deviation score (SDS) for weight, length and occipito-frontal circumference in all formula-fed infants, and with on day 10 an SDS for length in breast-fed infants. Brain weight was related to RBC DHA and CE DHA contents on both day 10 and day 42 in formula-fed infants. Of the variances of brain growth parameters on day 42, 21-34% were explained by DHA status on day 42 and protein intake from days 10-42. CONCLUSION: We conclude that parameters of early neonatal AA status are related to intra-uterine rather than to post-natal growth. Parameters of post-natal brain growth are related to RBC DHA and CE DHA contents on day 42, and to dietary protein intake. These results point to the importance of dietary DHA for brain growth in the first 6 post-natal weeks.

Oral administration of deuterium-labelled polyamines to sucking rat pups: luminal uptake, metabolic fate and effects on gastrointestinal maturation.

Non-physiological amounts of oral polyamines have been reported to induce precocious gut maturation in rat pups. The aim of the present study was to investigate organ distribution and metabolic fate of orally administered stable-isotopically labelled polyamines in rat pups. Pups received tetradeuterium-labelled putrescine (Pu-d4; 3 mumol), spermidine (Sd-d4; 5 mumol), spermine (Sp-d4; 3 mumol), or physiological saline twice daily on postnatal days 7-10 or 12-15. They were killed on days 10 and 15. We determined activities of ileal lactase (EC 3.2.1.23), maltase (EC 3.2.1.20), sucrase (EC 3.2.1.48) and diamine oxidase (EC 1.4.3.6) and established villus and crypt lengths. Polyamines and their labelling percentages in organs were determined by GC and mass fragmentography. Treatments did not affect growth rate, but caused lower weights of liver, kidneys and heart. Maltase activity increased, lactase decreased, whereas sucrase and diamine oxidase did not change. Villus and crypt lengths increased. Organ polyamine pools were labelled to different extents. Irrespective of the orally administered polyamine, all organs contained Pu-d4, SD-d4 and Sp-d4. Administered Pu-d4 and Sd-d4 were recovered mainly as Sd-d4, whereas Sp-d4 was recovered as Sp-d4 and Sd-d4. Total polyamines in a caecum, colon and erythrocytes increased, but increases were only to a minor extent with regard to labelled polyamines. Our data confirm precocious gut maturation by exogenous polyamines. Putrescine appears to be limiting factor. The exogenous polyamines were distributed among all investigated organs. They are not only used for the synthesis of higher polyamines, but also retroconverted to their precursors. Changes in erythrocyte polyamine contents suggest precocious stimulation of erythropoiesis.

Estimation of 24-hour polyamine intake from mature human milk.

It has been suggested that milk polyamines stimulate GI tract proliferation and maturation in newborns. We determined human milk polyamine concentrations and estimated 24-h outputs on days 16 +/- 4 (n = 98), 44 +/- 3 (n = 97) and 91 +/- 6 (n = 25) after delivery. Median concentrations in micromolars were, respectively, putrescine 0.77, 0.63, and 0.63; spermidine 4.54, 3.07, and 2.73; spermine 3.76, 2.90, and 2.22; and total polyamines 9.82, 6.83, and 5.71. Concentrations of spermidine, spermine, and total polyamines decreased during the observation period. Putrescine, spermidine, and spermine milk/maternal plasma ratios were estimated to be 16-19, 14-24, and 44-75, respectively. It would appear that milk polyamines are derived from the high polyamine contents in the mammary gland and that they may be important in infant nutrition.

Triglycerides, fatty acids, sterols, mono- and disaccharides and sugar alcohols in human milk and current types of infant formula milk.

OBJECTIVE: To investigate differences in the fatty acid composition, sterols, minor carbohydrates and sugar alcohols between human and formula milk. DESIGN: We analyzed the concentrations of triglycerides, sterols, di- and monosaccharides and sugar alcohols, as well as the fatty acid composition of 10 currently available types of formula milk for term babies. Results were compared with mature human milk from 99 exclusively breast-feeding Dutch women, who collected 24-hour samples in the second week (n = 99), sixth week (n = 99) and 3 months (n = 25) after delivery. Infant formula milk data were considered different if they fell outside the mean +/- 2s.d. range of corresponding human milk data. RESULTS: The triglyceride concentrations in human milk were lower than those of the formula milk, possibly due to an incomplete collection of fat-rich hindmilk. Formula milks tended towards a higher proportion of medium chain fatty acids and lower proportions of longer-chain polyunsaturated fatty acids. Formulas had cholesterol concentrations 3-35 times lower, and much higher phytosterol concentrations, compared with the human milk. In the formula milk types the glucose, sorbitol and myoinositol concentrations were generally lower, whereas the fucose and erythreitol concentrations were in the lower mean +/- 2s.d. human milk range. The galactose concentrations in the formulas were generally higher. CONCLUSIONS: Formula milk and human milk differ considerably in fatty acid composition and concentrations of cholesterol, phytosterols, monosaccharides and sugar alcohols. The biological consequences of these differences in composition are uncertain.

Erythrocyte and plasma cholesterol ester long-chain polyunsaturated fatty acids of low-birth-weight babies fed preterm formula with and without ribonucleotides: comparison with human milk.

We investigated whether a regular formula for premature infants (pre) supplemented with ribonucleotides (pre+RN) raises erythrocyte and plasma cholesterol ester (CE) long-chain polyunsaturated fatty acids (LCPUFAs) of low-birth-weight babies (< or = 2.50 kg) compared with their breast-fed counterparts. From days 11 to 42, 31 babies received the pre formula and 37 received pre+RN. Eleven breast-fed babies served as a reference group. Erythrocytes and CE fatty acids were determined on days 11, 21, and 42. There were no differences in the courses of erythrocytes and CE fatty acids between pre formula-fed and pre+RN-fed babies. On day 42, formula-fed babies had lower erythrocytes and CE n-3 and n-6 LCPUFAs compared with breast-fed babies. Subdivision into gestational age- and body weight-matched subgroups gave similar results. RN supplementation does not augment the erythrocyte and CE LCPUFA status of formula-fed babies.

Gestational age dependency of essential fatty acids in cord plasma cholesterol esters and triglycerides.

Plasma cholesterol ester and triglyceride fatty acid compositions of 38 singleton deliveries (23-42 wk), three twins (32, 39, and 40 wk), and their mothers were investigated. No gestational age-dependent changes occurred in maternal fatty acid compositions. Long-chain polyunsaturated fatty acids in fetal cholesterol esters and triglycerides were higher, and their precursors (18:2c,omega 6 and 18:3c,omega 3) were lower than those in corresponding maternal lipid classes. Except for 22:6c,omega 3,20:2c,omega 6, and 22:5c,omega 6, all long-chain polyunsaturated fatty acids in fetal triglycerides increased with advancing gestation. Fetal triglyceride 22:6c,omega 3/22:5c,omega 3 ratio decreased, whereas 22:5c,omega 6/22:4c,omega 6 remained constant. Fetal cholesterol ester and triglyceride 20:3c,omega 9 contents were higher than those of corresponding maternal fractions and did not change with gestation. Triglyceride 18:2c,omega 6 contents of babies with gestational ages of more than 34 wk were linearly related to those of their mothers. The data suggest that increasing triglyceride long-chain polyunsaturated fatty acid content with advancing gestation is partially caused by delta 6- and delta 5-desaturase maturation in the liver. Constancy of 22:6c,omega 3 and 22:5c,omega 6/22:4c,omega 6 and decrease of 22:6c,omega 3/22:5c,omega 3 in triglycerides may point to low hepatic delta 4-desaturation. Transplacental transport of 20:3c,omega 9, following by fetal conservation, should be considered. High 18:2c,omega 6 and low 18:3,omega 3 intakes by the mother may unfavorably influence fetal production of 22:6c,omega 3 in the liver. Because of low hepatic delta 4-desaturation capacity the influence may be small, however.

Quantitative determination of the dopamine agonist lisuride in plasma using high-performance liquid chromatography with fluorescence detection.

An HPLC method for the determination of lisuride hydrogen maleate in plasma is described. After addition of ergotamine tartrate as internal standard, plasma is extracted with diethyl ether. Following evaporation of the solvent and redissolving in methanol the extract is injected on a silica HPLC column and lisuride is monitored by fluorescence detection using an excitation wavelength of 322 nm and an emission wavelength of 405 nm. The method is sufficiently accurate and precise with a detection limit of 20 pg/ml lisuride in plasma. The usefulness of the method is demonstrated by measurements of lisuride levels after oral intake of a 0.6 mg dose of the drug by a healthy male volunteer, showing a peak level of 1266 pg/ml, 45 min after intake.

Milk of patients with tightly controlled insulin-dependent diabetes mellitus has normal macronutrient and fatty acid composition.

The composition of macro- and micronutrients in milk from six patients with tightly controlled insulin-dependent diabetes mellitus [median glycosylated hemoglobin concentrations at parturition of 5.2% (range 4.9-5.3%, reference range 4.9-6.6%) and 6 wk thereafter of 6.1% (range 5.0-6.3%, reference range 5.0-6.4%) was compared with that from five control subjects. Milk samples were collected halfway through a single breast-feeding at days 3-5 (colostrum); 7, 9, and 10 (transitional milk); and 12, 15, 17, 21, 25, 29, and 35 (mature milk). We found no abnormalities in macronutrient (triglycerides, lactose, and protein), cholesterol, glucose, and myoinositol concentrations or fatty acid composition. Two of three longitudinally studied patients showed rather constant ratios between glucose concentrations in milk and capillary blood. The present data suggest that tight control corrects a multitude of milk abnormalities associated with moderate and poor control.

Indicators of long chain polyunsaturated fatty acid status of exclusively breastfed infants at delivery and after 20-22 days.

The fatty acid composition of plasma cholesterol esters (CE), erythrocytes (RBC) and mature milk from seven lactating/women and their exclusively breastfed newborns, living on Dominica, were studied. Blood samples were taken from umbilical cord and mother at birth. A sample of breastmilk was collected on day 20-22 postpartum, together with a blood sample from the baby. At birth, cord blood plasma CE and RBC total long chain polyunsaturated fatty acid (LC-PUFA) contents were higher, and linoleic (18:2c, omega 6) and alpha-linolenic (18:3c, omega 3) acid contents lower, than in corresponding maternal compartments. Cord blood RBC LC-PUFA omega 3 content was lower and LC-PUFA omega 6 content higher than in maternal RBC. After birth, feeding with human milk led to a drop in LC-PUFA content in the plasma CE fraction, whereas RBC LC-PUFA content remained virtually constant. Current understanding of the origin and relative affinity of fatty acids incorporated in plasma CE and RBC suggests that RBC LC-PUFA content is a more reliable parameter for LC-PUFA status than plasma CE LC-PUFA content. The RBC LC-PUFA data suggest therefore that at birth the newborn has a lower LC-PUFA omega 3 status than the mother, and that this does not change during three weeks of exclusive breastfeeding.

A carbohydrate-rich diet not only leads to incorporation of medium-chain fatty acids (6:0-14:0) in milk triglycerides but also in each milk-phospholipid subclass.

We isolated phospholipid (PL) subclasses from milk of women in Dominica and Belize. Fatty acid (FA) compositions of PLs and total lipids were determined. In the total-lipid fraction Dominican milk showed higher relative amounts of medium-chain saturated fatty acids (MC-SAFAs; 6:0-14:0) and 22:6n-3 and lower amounts of long-chain saturated fatty acids (LC-SAFAs) and monounsaturated fatty acids (MUFAs). There was a positive relationship between the MC-SAFA content in total lipids and total PLs. Incorporation of MC-SAFAs in PLs occurred at the expense of LC-SAFAs, MUFAs, polyunsaturated fatty acids (PUFAs), and long-chain PUFAs with greater than or equal to 20 carbon atoms (LC-PUFAs greater than or equal to C20). Previous studies from Western countries revealed low amounts of MCSAFAs and high amounts of PUFAs and LC-PUFAs greater than or equal to C20 in milk PLs. Our data show that carbohydrate-rich diets give rise to incorporation of MC-SAFAs in PLs at the expense of PUFAs and LC-PUFAs greater than or equal to C20. The data are discussed in relation to the presumed origin of fat-globule membrane phospholipids.