Repression of allo-cell transplant rejection through CIITA ribonuclease P^＋ hepatocyte

AIM: Allo-cell transplant rejection and autoimmune responses were associated with the presence of class Ⅱ major histocompatibility complex (MHC II) molecules on cells.This paper studied the effect of Ribonuclease P (RNase P)against CIITA, which was a major regulator of MHCII molecules, on repressing the expression of MHCII molecules on hepatocyte.METHODS: M1-RNA is the catalytic RNA subunit of RNase P from Escherichia coli. It were constructed that M1-RNA with guide sequences (GS) recognizing the 452, 3408 site of CIITA by PCR from pTK117 plasmid, then were cloned into the EcoRⅠ/BglⅡ or EcoR/I SalIsite of vector psNAV(psNAV-M1-452-GS, psNAV-M1-3408-GS) respectively. The target mould plate (3176-3560) of CIITA was obtained from Raji cell by RT-PCR, and then inserted into the XhoI/EcoRIof pGEM-7zf(+) plasmid (pGEML3176). These recombinant plasmids were screened out by sequence analysis, psNAV-M1-452-GS, psNAV-M1-3408-GS and its target RNA pGEM-3176 were transcribed and then mixed up and incubated in vitro. It showed that M1-3408-GS could exclusively cleave target RNA that formed a base pair with the GS. Stable transfectants of hepatocyte cell line with psNAV-M1-3408-GS were tested for expression of class Ⅱ MHC through FCM, for mRNA abundance of MHCII, Ii and CIITA by RT-PCR., for the level of IL-2 mRNA on T cell by mixed lymphocyte reaction.RESULTS: When induced with recombinant human interferon-gamma (IFN-γ), the expression of HLA-DR1-DP1-DQ on psNAV-M1-3408-GS^+ hepatocyte was reduced 83.27%, 88.93%, 58.82% respectively, the mRNA contents of CIITA, HLA-DR,-DP, -DQ and Ii decreased significantly.While T cell expressed less IL-2 mRNA in the case of psNAV-M1-3408-GS^+ hepatocyte.CONCLUSION: The Ribonuclease P against CIITA-M1-3408-GS could effectively induce antigen-specific tolerance through cleaving CIITA. These results provided insight into the future application of M1-3408-GS as a new nucleic acid drug against allo-transplantation rejection and autoimmune diseases.     

Effects of weaning and rearing environment on intestinal gene expression of IGF-I,IGFBP (1-6), and the IGF receptor and on specific binding of IGF-I to mucosal membranes in the pig

The objective of this study was to investigate changes in gene expression of intestinal IGF-I, IGFBPs, and IGF-I receptor in pigs in response to weaning and different rearing environment. Pigs were weaned early at 12 days of age and either remained on-site in a separate facility (CON) or were moved to a segregated site with reduced infection pressure (segregated early weaning; SEW). Small intestinal samples were collected from a total of 15 pigs killed at 11 (pre-weaning), 15 (3 days post-weaning), and 34 days of age. Intestinal IGF-I mRNA levels were higher (P < 0.01) in SEW than in CON pigs at 3 days post-weaning, but not at 34 days of age. Weaning reduced (P < 0.05) both IGF-IR mRNA levels and specific binding of IGF-1 in the jejunum in both groups at day 34, but only in SEW pigs (P < 0.05) at day 3 post-weaning. Weaning resulted in a major reduction (P < 0.05) in intestinal IGFBP-2 mRNA, with no difference between SEW and CON. Intestinal IGFBP-3 mRNA levels were unaffected by weaning or post-weaning environment. Weaning did not affect intestinal IGFBP-4 mRNA levels, except for an increase (P < 0.05) in CON pigs compared to pre-weaning, and to SEW pigs at 3 days post-weaning. The abundance of IGFBP-5 mRNA in the gut was highly variable with no apparent treatment effect. Intestinal IGFBP-6 mRNA levels were reduced (P < 0.05) after weaning, with lower (P < 0.05) levels in SEW pigs than in CON pigs at 34 days of age. This study documents the changes in IGF-1, IGF-IR, and IGFBP mRNA abundance, and in IGF-1 binding during post-weaning adaptation of the intestine in early-weaned pigs. In addition, the relative differences observed in intestinal expression of IGF-1, IGF-IR, and in IGF-1 binding between the post-weaning environments are consistent with previous observations in a companion study indicating that segregated early weaning enhances post-weaning intestinal maturation in pigs.     

Identification of the glycosaminoglycan-attachment site of mouse invariant-chain proteoglycan core protein by site-directed mutagenesis.

The invariant chain (Ii), a nonpolymorphic glycoprotein that associates with the immunoregulatory Ia proteins encoded by the major histocompatibility complex, has a proteoglycan form (Ii-CS) that bears a chondroitin sulfate glycosaminoglycan. In this proteoglycan form, Ii may remain associated with Ia at the cell surface. Inhibitors that prevent the addition of glycosaminoglycan to Ii have been found to depress antigen-presenting function. Ii does not have multiple candidate glycosaminoglycan-attachment sites, and we used site-directed mutagenesis to replace a candidate serine glycosaminoglycan-acceptor site with alanine at position 201 in the murine Ii protein. Transfection of the normal or altered gene into Ii-negative COS-7 cells showed that equivalent amounts of core Ii protein and its acidic, terminally glycosylated forms were synthesized, but the Ala-201 mutant Ii did not give rise to Ii-CS. The mutant protein had apparently normal transport through the Golgi compartment and associated stably with Ia molecules. Thus, this mutation directly identifies the site of glycosaminoglycan addition and shows that it can be eliminated without adversely affecting the overall biosynthesis of Ii.     

Implication of insulin and nutritional factors in the regulation of intestinal galactosyltransferase activity during postnatal development

In the rat small intestine, galactosyltransferases are the enzymes implicated in the biosynthesis of glycoproteins of the brush-border membranes and mucins. During postnatal development, the circulating insulin level increased at weaning in parallel with the activities of intestinal galactosyltransferases on O-glycans and N-glycans. This study deals with the role of insulin in the regulation of galactosyltransferase activities during postnatal development. The treatment of immature suckling rats with insulin induced a precocious increase in the activities of the O-glycan and N-glycan galactosyltransferases, partly reproducing the increase in galactosyltransferase activity normally found at weaning, since the O-glycan galactosyltransferase activity increased more quickly than the N-glycan galactosyltransferase activity. The sensitivity of the two galactosyltransferase activities to insulin disappeared after weaning, a period when drastic diet changes occur. In 22-day-old rats submitted to prolonged nursing (high-fat diet), the activities of the O-glycan and N-glycan galactosyltransferases were lower than those found in age-matched normally weaned rats (high-carbohydrate diet), indicating a delay in the maturation of the intestine of prolonged-nursing rats. The circulating insulin level of these animals stayed lower than that of the age-matched weaned rats. When the prolonged-nursing animals were treated with insulin, the O-glycan and N-glycan galactosyltransferase activities reached levels similar to those of the weaned rats. These observations suggest that insulin is one of the maturation factors for intestinal glycoprotein galactosylation and may be partly responsible for the natural enhancement of intestinal galactosyltransferase activities observed during postnatal development in relation to the dietary changes at weaning.     

Cysteamine increases expression and activity of H~1-K~ -ATPase of gastric mucosal cells in weaning piglets

AIM: To determine the in vivo and in vivo effects of cysteamine (CS) on expression and activity of H -K -ATPase of gastric mucosal cells in weaning piglets. METHODS: Eighteen litters of newborn Xinhuai piglets were employed in the in vivo experiment and allocated to control and treatment groups. From 12 d of age (D12), piglets in control group were fed basal diet, while the treatment group received basal diet supplemented with 120 mg/kg CS. Piglets were weaned on D35 in both groups. Six piglets from each group (n = 6) were slaughtered on D28 (one week before weaning), D35 (weaning), D36.5, D38, D42, and D45 (36 h, 72 h, one week and 10 d after weaning), respectively. Semi-quantitative RT-PCR was performed to determine the levels of H -K -ATPase mRNA in gastric mucosa. H -K -ATPase activity in gastric mucosa homogenate was also determined. Gastric mucosal epithelial cells from piglets through primary cultures were used to further elucidate the effect of CS on expression and activity of H -K -ATPase in vivo. Cells were treated for 20 h with 0.001, 0.01, and 0.1 mg/mL of CS (n = 4), respectively. The mRNA expression of H -K -ATPase and somatostatin (SS) as well as the H -K -ATPase activity were determined. RESULTS: in vivo, both mRNA expression and activity of H -K -ATPase in gastric mucosa of control group exhibited a trend to increase from D28 to D45, reaching a peak on D45, but did not show significant age differences. Furthermore, neither the mRNA expression nor the activity of H -K -ATPase was affected significantly by weaning. CS increased the mRNA expression of H -K -ATPase by 73%, 53%, 30% and 39% on D28 (P = 0.014), D35 (P = 0.017), D42 (P = 0.013) and D45 (P = 0.046), respectively. In accordance with the mRNA expression, H -K -ATPase activities were significantly higher in treatment group than in control group on D35 (P = 0.043) and D45 (P = 0.040). In vivo, CS exhibited a dose-dependent effect on mRNA expression and activity of H -K -ATPase. Both H -K -ATPase mRNA expression and activity in gastric mucosal epithelial cells were significantly elevated after 20 h of exposure to the moderate (H -K -ATPase expression: P=0.03; H -K -ATPase activity: P = 0.014) and high concentrations (H -K -ATPase expression: P=0.017; H -K -ATPase activity: P = 0.022) of CS. Significant increases in SS mRNA expression were observed to accompany the elevation of H -K -ATPase expression and activity induced by the moderate (P = 0.024) and high concentrations (P = 0.022) of CS. Low concentration of CS exerted no effects either on expression and activity of H -K -ATPase or on SS mRNA expression in cultured gastric mucosal epithelial cells. CONCLUSION: No significant changes are observed in mRNA expression and activity of H -K -ATPase in gastric mucosa of piglets around weaning from D28 to D45. CS increases expression and activity of gastric H -K -ATPase in vivo and in vivo. SS is involved in mediating the effect of CS on gastric H -K -ATPase expression and activity in weaning piglets.     

Disruption of hedgehog signaling reveals a novel role in intestinal morphogenesis and intestinal-specific lipid metabolism in mice

BACKGROUND & AIMS: The hedgehog (hh) signaling pathway has been shown to play crucial roles in the development of embryonic gut. However, its role in intestinal development and function beyond the embryonic stage is still undefined. METHODS: Expression of hh and its receptor, Patched, were examined by Western blot and X-gal staining. An anti-hh monoclonal antibody was administered into developing embryos or postnatal mice and histologic analyses were performed. Effects on lipid metabolism were examined by Oil Red O and Sudan III stainings, messenger RNA (mRNA) analysis, and electron microscopy. Serum apolipoprotein IV level, a marker for lipid absorption, was quantified by Western blot. RESULTS: Mice receiving anti-hh monoclonal antibody in utero or after birth exhibited progressive runting and died before weaning. Histology revealed hyperproliferation of intestinal crypt epithelial cells and disorganization of the villi with prominent vacuolation and accumulation of neutral lipid. Fecal fat microscopy revealed numerous large fat droplets. Intestinal mRNA abundance of 2 candidate genes involved in lipid transport, mtp and apob, was unchanged, although serum levels of apolipoprotein A-IV were reduced. CONCLUSIONS: Abnormal villus structure, lipid-filled enterocytes, and fatty stools in anti-hh monoclonal antibody-treated mice indicate a novel role for hh signaling in intestinal morphogenesis and lipid transport in postnatal mice.     

Cysteamine increases expression and activity of H^＋-K^＋-ATPase of gastric mucosal cells in weaning piglets

AIM: To determine the in vivo and in vivo effects of cysteamine (CS) on expression and activity of H(+)-K(+)-ATPase of gastric mucosal cells in weaning piglets. METHODS: Eighteen litters of newborn Xinhuai piglets were employed in the in vivo experiment and allocated to control and treatment groups. From 12 d of age (D12), piglets in control group were fed basal diet, while the treatment group received basal diet supplemented with 120 mg/kg CS. Piglets were weaned on D35 in both groups. Six piglets from each group (n = 6) were slaughtered on D28 (one week before weaning), D35 (weaning), D36.5, D38, D42, and D45 (36 h, 72 h, one week and 10 d after weaning), respectively. Semi-quantitative RT-PCR was performed to determine the levels of H(+)-K(+)-ATPase mRNA in gastric mucosa. H(+)-K(+)-ATPase activity in gastric mucosa homogenate was also determined. Gastric mucosal epithelial cells from piglets through primary cultures were used to further elucidate the effect of CS on expression and activity of H(+)-K(+)-ATPase in vivo. Cells were treated for 20 h with 0.001, 0.01, and 0.1 mg/mL of CS (n = 4), respectively. The mRNA expression of H(+)-K(+)-ATPase and somatostatin (SS) as well as the H(+)-K(+)-ATPase activity were determined. RESULTS: in vivo, both mRNA expression and activity of H(+)-K(+)-ATPase in gastric mucosa of control group exhibited a trend to increase from D28 to D45, reaching a peak on D45, but did not show significant age differences. Furthermore, neither the mRNA expression nor the activity of H(+)-K(+)-ATPase was affected significantly by weaning. CS increased the mRNA expression of H(+)-K(+)-ATPase by 73%, 53%, 30% and 39% on D28 (P = 0.014), D35 (P = 0.017), D42 (P = 0.013) and D45 (P = 0.046), respectively. In accordance with the mRNA expression, H(+)-K(+)-ATPase activities were significantly higher in treatment group than in control group on D35 (P = 0.043) and D45 (P = 0.040). In vivo, CS exhibited a dose-dependent effect on mRNA expression and activity of H+-K+-ATPase. Both H(+)-K(+)-ATPase mRNA expression and activity in gastric mucosal epithelial cells were significantly elevated after 20 h of exposure to the moderate (H(+)-K(+)-ATPase expression: P=0.03; H(+)-K(+)-ATPase activity: P = 0.014) and high concentrations (H(+)-K(+)-ATPase expression: P=0.017; H(+)-K(+)-ATPase activity: P = 0.022) of CS. Significant increases in SS mRNA expression were observed to accompany the elevation of H(+)-K(+)-ATPase expression and activity induced by the moderate (P = 0.024) and high concentrations (P = 0.022) of CS. Low concentration of CS exerted no effects either on expression and activity of H(+)-K(+)-ATPase or on SS mRNA expression in cultured gastric mucosal epithelial cells. CONCLUSION: No significant changes are observed in mRNA expression and activity of H(+)-K(+)-ATPase in gastric mucosa of piglets around weaning from D28 to D45. CS increases expression and activity of gastric H(+)-K(+)-ATPase in vivo and in vivo. SS is involved in mediating the effect of CS on gastric H(+)-K(+)-ATPase expression and activity in weaning piglets.     

Induction of gastric ornithine decarboxylase in early weaning rats.

BACKGROUND/AIMS: Early weaning has been shown to induce intestinal ornithine decarboxylase (ODC) activities and cell proliferation in rats. No information is available about the effect of early weaning on ODC activity in the stomach. METHODS: Suckling rats were prematurely weaned on postnatal day 15 and followed through day 21. Oxyntic gland mucosa of stomach was obtained on postnatal days 15, 16, 18 and 21 (days 0, 1, 3 and 6 after early weaning) and assayed for ODC activity, DNA, protein and pepsinogen activity. alpha-Difluoromethyl ornithine (DFMO), a specific ODC inhibitor, was given orally to early-weaned pups and its resultant effects were assessed on days 1 and 6 after early weaning. RESULTS: Stomach mucosal wet weight, DNA, protein and pepsinogen activities significantly increased on day 6 after early weaning. ODC activity increased on days 1, 3, and 6 after early weaning, with the highest increase (3-fold) on day 1 when compared to controls. The increases of ODC activity, DNA and protein contents as induced by early weaning were significantly suppressed when pups were exposed to DFMO. However, no suppression of pepsinogen activity was observed. CONCLUSIONS: Our study shows that early weaning induces ODC activity and functional growth in the stomach. Gastric ODC activity is essential in gastric mucosal growth processes but not in differentiation. The induction of stomach ODC may act as an early marker in the growth of stomach mucosa induced by early weaning in rats.     

Overexpression of apolipoprotein CIII increases and CETP reverses diet-induced obesity in transgenic mice

OBJECTIVE: We recently described that hypertriglyceridemic apolipoprotein (apo) CIII transgenic mice show increased whole body metabolic rate. In this study, we used these apo CIII-expressing mice, combined or not with the expression of the natural promoter-driven CETP gene, to test the hypothesis that both proteins modulate diet-induced obesity. MEASUREMENTS AND RESULTS: Mice expressing apo CIII, CIII/CETP, CETP and nontransgenic (NonTg) mice were maintained on a high-fat diet (14% fat by weight) during 20 weeks after weaning. At the end of this period, all groups exhibited the expected lipemic phenotype. Fasting glucose levels were neither affected by the high-fat diet nor by the distinct genotypes. However, apo CIII mice showed significantly higher glycemia ( approximately 35%) and lower insulin levels ( approximately 45%) in the fed state, compared with the NonTg mice. The apo CIII mice presented significantly increased body weight, lipid content of the carcass ( approximately 25%), visceral adipose tissue mass (about twofold) and adipocyte size ( approximately 25%) compared with the CETP and NonTg mice. The CETP expression in the apo CIII background normalized the subcutaneous adipose depot and visceral adipocyte size to the levels of NonTg mice. Plasma leptin levels were lower in CETP groups (25-50%) and higher in the apo CIII mice. Similar core body temperature in all groups and similar liver mitochondrial resting respiration rates in CIII and NonTg mice indicate no differences in basal energy expenditure rates among these mice fed a high-fat diet. CONCLUSION: The elevation of plasma apo CIII levels aggravates diet-induced obesity and the expression of physiological levels of circulating CETP reverses this adipogenic effect, indicating a novel role for CETP in modulating adiposity.     

Effects of the soluble fibre pectin on intestinal cell proliferation,fecal short chain fatty acid production and microbial population

AIM: Although pectin, a dietary fibre, has been suggested to possess some trophic effects on the intestine, the mechanisms involved remain unclear. This study aimed to evaluate the effects of pectin on rat intestinal cell proliferation and the intraluminal environment. METHODS: Control and pectin-fed rats were given a fibre-free elemental diet (ED) and an ED containing 2.5% pectin, respectively. On the 15th day, the length, weight and number of Ki-67-positive cells from each intestinal segment, and the short chain fatty acids (SCFAs) and microbial population in the caecum were measured. Plasma glucagon-like peptide-2 (GLP-2) concentration and GLP-2 receptor (GLP-2R) mRNA levels in the epithelium were also determined. RESULTS: Pectin supplementation resulted in significant increases in the length, weight, and number of Ki-67-positive cells in the ileum, caecum and colon. Although pectin supplementation did not affect the caecal microbial flora that produced SCFAs, the caecal SCFA content was significantly increased. Pectin supplementation also induced an increase in the plasma GLP-2 concentration, but did not affect the GLP-2R mRNA levels in the small intestine. CONCLUSIONS: The increases in the caecal SCFAs and plasma GLP-2 levels induced by pectin supplementation may cause mucosal proliferation in the lower intestinal tract.     

Peroxidase activity in the intestinal tract of Wistar-Furth, BBc and BBdp rats

BACKGROUND: The development of immune-mediated diabetes in BB rats may involve an inflammatory lesion of the intestinal tract. METHODS: In order to further explore this issue, the activity of peroxidase was measured, in the absence and presence of either bromide or dapsone, at day 10, 30, 45, 70, 95 and 120 in three segments (top, mid and bottom) of the intestinal tract from Wistar-Furth rats and both diabetes-resistant and diabetes-prone BB rats fed after weaning either diabetes-promoting diets or a protective diet, which decreases the incidence of diabetes in the BB rats. RESULTS: In the present study, from day 30 onwards, an age-related increase in peroxidase activity was found in the intestine of diabetes-prone BB rats (BBdp rats) fed diabetogenic diets, when compared with either Wistar-Furth or diabetes-resistant BB rats (BBc rats). This increase was most pronounced in the distal segments of the intestinal tract. Even when fed a protective diet, higher peroxidase activity was found in BBdp than BBc rats. Yet, in BBc rats, and to a lesser extent in BBdp rats, the diabetogenic diets lowered peroxidase activity below the value found in rats of the same strain fed the protective diet. There was a tight correlation between the activity of peroxidase and its susceptibility to be increased by bromide. CONCLUSION: It is proposed that diabetogenic diets may decrease peroxidase activity in intestinal cells, this effect becoming masked in BBdp rats by an age-related increase in the contribution of inflammatory cells. The latter phenomenon affects preferentially the distal segments of the intestinal tract.     

Semipurified dietary fiber and small-bowel morphology in rats

Newly weaned rats fed 12 weeks on a diet containing no dietary fiber or no fiber except for 10% cellulose, maintained the leaf-like intestinal villous morphology present at weaning, as observed by scanning electron microscopy. In rats on a normal laboratory diet the jejunal morphology showed progression from the leaf-like villous pattern at weaning to broad-leafed, long-ridged villi of adulthood. Pectin added to a no-fiber diet caused structural changes similar to but less well developed than those changes in the rats on a standard diet. Striking differences were noted not only in the appearance of the intestinal villi but in the number of villi per square centimeter between those animals on no fiber or no fiber except cellulose and those animals on pectin or standard diets. Cholestyramine, a strong pharmacological bile salt-binding agent, when added to a nofiber diet, did not promote development of the usual villous pattern, and the structure remained the same as that in rats on no-fiber and cellulose diets. Cellulose (no bile salt-binding capability) and pectin (weak bile salt-binding capability) added to a no-fiber diet were associated with significant differences in the number of villi in both the jejunum and the ileum. The observed changes in morphology are unlikely to be due to differing bile salt-binding capabilities of different fiber substances.     

Effects of gluten enriched diet on the small intestinal mucosa of normal mice and mice with graft versus host reaction.

This study looked at the effect of extra dietary gluten on the intestinal architecture of both normal mice and those with an ongoing mucosal delayed hypersensitivity reaction. BDF1 normal mice and mice in which a graft v host reaction (GvHR) had been induced, both weaned on gluten free diet, were allocated for three weeks to three different dietary regimens: gluten free, 'normal' (3.6% gluten), and gluten enriched (15.8% gluten). In normal mice receiving the gluten containing diet, shorter villi, deeper crypts, and higher crypt cell production rate were noted when compared with those receiving gluten free diet: these changes were more pronounced in those receiving the gluten enriched diet. GvHR mice showed shorter villi and an increase in both crypt length and crypt cell production rate when compared with normal mice, but the presence of gluten in their diet did not produce additional damage. Both in normal and in GvHR mice receiving gluten containing diet there were no signs of systemic (cell mediated or humoral) or mucosal immune reactions (raised intraepithelial lymphocyte counts or enhanced epithelial Ia expression) to gliadin. In conclusion, increasing the dietary gluten content produces significant changes in the mucosal architecture of normal mice; mice with GvHR enteropathy do not show additional damage resulting from dietary gluten.     

Role of bacterial infection in diet-induced acute pancreatitis in mice.

This study was performed to elucidate the role of bacterial infection in acute pancreatitis in young female mice fed a choline-deficient diet supplemented with 0.5% DL-ethionine (CDE diet). Mice were randomly classified into two groups: one had been fed CDE diet alone (nonantibiotic group), the other was fed a CDE diet with oral administration of antibiotics (antibiotic group). Survival rates at 96 and 144 h after introduction of the CDE diet were significantly improved in the antibiotic group, 25.0 and 19.4%, respectively, as compared with 3.6 and 0% in the nonantibiotic group (p, 0.05). Aerobic and anaerobic bacterial cultures of blood, ascites, spleen, and pancreas were taken from living mice 72 h after introduction of the CDE diet. Positive bacterial growth from one or more of the specimens occurred in 29.4% of the nonantibiotic group, and in 10.0% of the antibiotic group. Mice with pancreatic necrosis had a higher positive culture rate, 62.5% in the nonantibiotic group vs 20.0% in the antibiotic group. These results suggest that reduction of intestinal flora in mice inhibits secondary infection caused by bacterial translocation and improves survival in diet-induced hemorrhagic pancreatitis. We believe the development of bacterial infection of gut origin may be a factor influencing mortality in severe pancreatitis.     

Does maternal dietary mineral restriction per se predispose the offspring to insulin resistance?

BACKGROUND: Maternal undernutrition is hypothesized to predispose the offspring to disease in adult life. The relevance of maternal macronutrient deficiency has been well studied but not that of micronutrients. OBJECTIVE: To assess the effect of maternal dietary mineral restriction per se on oral glucose tolerance (OGT), insulin resistance (IR) and fat metabolism in offspring. DESIGN: Female weanling Wistar/NIN rats received a control or a 50% mineral-restricted (MR) diet for 12 weeks, by which time MR rats had lower plasma Fe, Zn, Mg and Ca concentrations. Following mating with control males, a third of the MR dams were shifted to the control diet from parturition. Half of the pups born to the remaining MR dams were weaned onto the control diet while the other half continued on the MR diet. RESULTS: Pregnant MR dams had a higher abortion rate, body weights of their pups at birth and weaning were lower and rehabilitation had no beneficial effect. No offspring had impaired OGT, and IR status was comparable among different groups on postnatal days 40, 70, 100 or 180. Compared with controls, total body electrical conductivity measurements indicated significantly higher body fat %, lower lean body mass and fat-free mass in MR offspring besides elevated plasma triacylglycerols. Mineral rehabilitation from parturition or weaning had little effect on these changes, which did not appear to be due to increased oxidative stress. CONCLUSIONS: Maternal MR per se resulted in an increase in body fat and in plasma triacylglycerol concentrations in the offspring. These changes had, however, no discernable effect on insulin sensitivity over the first 180 days of life.