Lith1, a major gene affecting cholesterol gallstone formation among inbred strains of mice.

The prevalence of cholesterol gallstones differs among inbred strains of mice fed a diet containing 15% (wt/wt) dairy fat, 1% (wt/wt) cholesterol, and 0.5% (wt/wt) cholic acid. Strains C57L, SWR, and A were notable for a high prevalence of cholelithiasis; strains C57BL/6, C3H, and SJL had an intermediate prevalence; and strains SM, AKR, and DBA/2 exhibited no cholelithiasis after consuming the diet for 18 weeks. Genetic analysis of the difference in gallstone prevalence rates between strains AKR and C57L was carried out by using the AKXL recombinant inbred strain set and (AKR x C57L)F1 x AKR backcross mice. Susceptibility to gallstone formation was found to be a dominant trait determined by at least two genes. A major gene, named Lith1, mapped to mouse chromosome 2. When examined after 6 weeks on the lithogenic diet, the activity of hepatic 3-hydroxy-3-methylglutaryl-CoA reductase (EC 1.1.1.88) was downregulated as expected in the gallstone-resistant strains, AKR and SJL, but this enzyme failed to downregulate in C57L and SWR, the gallstone-susceptible strains. This suggests that regulation of the rate-limiting enzyme in cholesterol biosynthesis may be pivotal in determining the occurrence and severity of cholesterol hypersecretion and hence lithogenicity of gallbladder bile. These studies indicate that genetic factors are critical in determining gallstone formation and that the genetic resources of the mouse model may permit these factors to be identified.     

Lith genes control mucin accumulation,cholesterol crystallization,and gallstone formation in A/J and AKR/J inbred mice

We recently identified 2 Lith genes that determine cholesterol gallstone formation in C57L/J inbred mice, which show a gallstone prevalence of approximately 80% on feeding 1.0% cholesterol and 0.5% cholic acid. The aim of this study was to explore if the same Lith loci contribute to the variation in gallstone susceptibility in a new experimental cross. After 12 weeks of feeding the lithogenic diet to inbred mice of strains A/J and AKR/J as well as their F(1) progeny, we used microscopy of bile to assess mucin accumulation, crystallization pathways, and stone formation. Backcross progeny (n = 225) were phenotyped and genotyped selectively for microsatellite markers spanning the genome. Quantitative trait loci (QTL) affecting gallstone phenotypes were identified by linkage analysis. Both inbred strains showed accumulation of mucin gel and cholesterol supersaturation. However, only strain AKR developed gallstones (prevalence of 20%), whereas strain A showed a stable liquid crystalline state and no stones. QTL analysis identified a gallstone locus on chromosome 17 (Lith3). A second gene locus on chromosome 15 that controls mucin accumulation harbors the mucin gene Glycam1, which was shown to be expressed in gallbladder epithelia by immunohistochemistry. Gallstone and mucin loci colocalized with potential QTLs affecting the formation of cholesterol crystals. In conclusion, QTL analysis identified specific gene loci determining mucin accumulation, cholesterol crystallization, and gallstone formation. Characterization of the pathophysiologic roles of Lith3 and the new biliary mucin gene Glycam1 might provide insights into primary defects of human cholelithiasis and lead to new therapeutic strategies for prestone intervention.     

Determination of parameters effecting proton relaxation of hepatic and gallbladder biles in dogs

The parameters which are important in causing changes in the T1 and T2 proton magnetic relaxation times of dogs bile were investigated. Three factors were found to be important in causing relaxation in bile: (i) total bile salt concentration; (ii) total protein concentration, and (iii) viscosity. The T1 and T2 values of hepatic and gallbladder biles were found to be independent of specific gravity, osmolarity and electrolyte concentrations. In vitro experiments were conducted with taurocholic acid, bovine serum albumin and porcine stomach mucin to examine the effects of intermolecular interactions on proton relaxation. Relative to each of the molecules alone, various combinations of the bile salt and proteins exhibit relaxation rates of 20 to 60% below theoretically expected values. This influence of in vitro molecular interactions on T1 and T2 is also likely to occur in hepatic and gallbladder biles in vivo. Thus, the effects of complex intermolecular interactions associated with the gallbladder microenvironment complicate but likely will not preclude direct assessment of physiologic data with magnetic resonance imaging.     

Hyperhomocysteinemia from trimethylation of hepatic phosphatidylethanolamine during cholesterol cholelithogenesis in inbred mice

Because hyperhomocysteinemia can occur in cholesterol gallstone disease, we hypothesized that this may result from trimethylation of phosphatidylethanolamine (PE), which partakes in biliary phosphatidylcholine (PC) hypersecretion during cholesterol cholelithogenesis. We fed murine strains C57L/J, C57BL/6J, SWR/J, AKR/J, PE N-methyltransferase (PEMT) knockout (KO), PEMT heterozygous (HET), and wildtype (WT) mice a cholesterol/cholic acid lithogenic diet (LD) for up to 56 days and documented biliary lipid phase transitions and secretion rates. We quantified plasma total homocysteine (tHcy), folate, and vitamin B12 in plasma and liver, as well as biliary tHcy and cysteine secretion rates. Rate-limiting enzyme activities of PC synthesis, PEMT and cytidine triphosphate: phosphocholine cytidylyltransferase (PCT), S-adenosylmethionine (SAM), and S-adenosylhomocysteine (SAH) were measured in liver homogenates. Other potential sources of plasma tHcy, glycine N-methyltransferase (GNMT) and guanidinoacetate N-methyltransferase (GAMT), were assayed by gene expression. Plasma tHcy and PEMT activities became elevated during cholelithogenesis in gallstone-susceptible C57L, C57BL/6, and SWR mice but not in the gallstone-resistant AKR mice. Persisting in C57L mice, which exhibit the greatest Lith gene burden, these increases were accompanied by elevated hepatic SAM/SAH ratios and augmented biliary tHcy secretion rates. Counter-regulation included remethylation of Hcy to methionine concurrent with decreased folate and vitamin B12 levels and Hcy transsulfuration to cysteine. Concomitantly, methylenetetrahydrofolate reductase (Mthfr), betaine-homocysteine methyltransferase (Bhmt), and cystathionine-β-synthase (Cbs) were up-regulated, but Gnmt and Gamt genes were down-regulated. PEMT KO and HET mice displayed biliary lipid secretion rates and high gallstone prevalence rates similar to WT mice without any elevation in plasma tHcy levels. CONCLUSION: This work implicates up-regulation of PC synthesis by the PEMT pathway as a source of elevated plasma and bile tHcy during cholesterol cholelithogenesis.     

Genetic dissection of susceptibility to audiogenic seizures in inbred mice.

Mice of some inbred strains, such as 21-day-old DBA/2J mice, have generalized convulsions when exposed to intense auditory stimulation. Analysis of susceptibility to audiogenic seizures in BXD recombinant inbred strains has demonstrated the influence of at least three loci. One locus, Asp-1, is located on chromosome 12 between Ah and D12Nyu1; another locus, Asp-2, is on chromosome 4, tightly linked to b. Here we report evidence that Asp-2 is located within an 8-centimorgan segment distal to b and that Asp-3 is linked to Mtv-1 on chromosome 7. We also present evidence that these three loci account for most of the heritable variation in susceptibility to audiogenic seizures in crosses of DBA/2J and C57BL/6J mice and that susceptibility to audiogenic seizures is influenced by genomic imprinting. Thus, genomic imprinting may complicate linkage and mapping studies and should be considered in analyses of complex modes of inheritance.     

Variation in susceptibility to atherosclerosis among inbred strains of mice

The effect of short-term exercise withdrawal on plasma lipoproteins, apoprotein A-I (Apo A-I), and lecithin:cholesterol acyltransferase (LCAT) was studied in moderately trained lifestyle exercisers. Eight endurance-trained men, age 18-45 years (means = 29 years), withdrew from aerobic activity for 6 weeks, while an age and fitness-matched control group (n = 9) maintained normal exercise habits. A baseline period that included two blood samplings preceded the detraining intervention. Plasma total cholesterol (TCHOL), HDL cholesterol (HDL-C) and triglyceride (TG) levels were determined weekly. Other blood variables (HDL2-C, HDL3-C, Apo A-I, and LCAT), % fat, and aerobic capacity (VO2max) were measured pre-, mid-, and post-experiment. A two-way repeated measures analysis of variance (ANOVA) indicated that the 6-week exercise withdrawal period failed to elicit significant mean changes in any blood variable, % fat, or VO2max. Therefore, a short-term layoff from aerobic activity by moderately trained, chronic exercisers generally does not adversely affect the blood lipoprotein profile or aerobic capacity.     

Effect of dietary cholesterol and indomethacin on cholelithiasis and gallbladder motility in guinea pig

This study examines the effects of dietary cholesterol and subcutaneous indomethacin on gallstone formation, gallbladder motility, and bile composition in guinea pigs. Guinea pigs on cholesterol diets developed gallstones which were not primarily composed of cholesterol and were not prevented by indomethacin. Animals receiving cholesterol diets showed significant gallbladder enlargement which was inhibited by indomethacin. Cholesterol did not alter gallbladder pressure-volume relationships or the response to CCK, while indomethacin diminished gallbladder tone. Although cholesterol feeding did not appear to alter smooth muscle contractility in the guinea pig gallbladder, it caused significant gallbladder enlargement by a mechanism which may be dependent on prostaglandins.This study was supported by National Institutes of Health grant AM 15304.     

Molecular genetics of cholesterol cholelithiasis: identification of human and murine gallstone genes

Cholesterol cholelithiasis is one of the most common gastroenterological diseases in Western countries. It is a polygenic disease resulting from disturbed biliary cholesterol homeostasis. Association studies identified six human gallstone candidate genes. Polymorphisms in the genes encoding the apolipoproteins B and E, phospholipid flippase ( ABCB4), cholesterol ester transfer protein ( CETP), cholesterol-7alpha-hydroxylase ( CYP7A1) and ileal bile acid transporter ( SLC10A2) are correlated with gallstone prevalence. Quantitative Trait Locus (QTL) analysis localises additional unknown gallstone genes in inbred mice. Based on the natural variation of cholesterol gallstone susceptibility among different inbred strains, 5 lithogenic ( Lith) loci have been identified. Hepatobiliary transporters (e. g. bile salt export pump Abcb11) and key proteins of the lipoprotein metabolism (e. g. hepatic lipase Lipc) could be established as creedal candidate genes for Lith loci. The rapid progress of mouse and human genome projects provides the basis for the analysis of orthologous human LITH genes in gallstone patients, which might offer new prospects for individual risk assessment and molecular targets for stone prevention.     

Kinetics of cholesterol and bile acids in patients with cholesterol cholelithiasis.

The kinetics of cholesterol and bile acid was determined from a 10-week analysis of the biliary lipids after a single injection of labeled cholesterol in parallel with a conventional 1-week study of primary bile acid kinetics. Six healthy controls and 6 patients with cholesterol cholelithiasis were studied. Two of the 6 cholesterol cholelithiasis subjects had kinetic values that were very similar to the controls and the other 4 were significantly different. These 4 patients had significantly smaller primary bile acid pools and significantly lower fractional conversions of cholesterol to both primary bile acids, with concomitantly lower bile acid flux. No significant differences were obtained for the size of the rapidly miscible cholesterol pool, the fractional rate of loss and flux of biliary neutral sterol, and the fractional turnover of the primary bile acid pools. These kinetic data support the hypothesis that in some patients with cholesterol cholelithiasis there is defective conversion of cholesterol to bile acids.     

Genome-wide analysis of hepatic fibrosis in inbred mice identifies the susceptibility locus Hfib1 on chromosome 15

BACKGROUND & AIMS: Host genetic factors are likely to contribute to the variable course of hepatic fibrosis in response to chronic liver injury. Similarly, the fibrotic response differs among inbred mouse strains after challenge with CCl(4). Our aim was to identify unknown susceptibility loci for hepatic fibrosis in a cross between fibrosis-susceptible and -resistant inbred mice. METHODS: Seven inbred mouse strains were treated with CCl(4), and hepatic fibrosis was phenotypically characterized by histology, hepatic hydroxyproline levels, and serum surrogate markers. F(1) hybrids of susceptible BALB/cJ and resistant A/J inbred strains were intercrossed to obtain 358 F(2) progeny. Quantitative trait loci (QTL) that determine hepatic fibrosis were identified by genome-wide interval mapping and haplotype analysis. RESULTS: In this model, marked strain differences in fibrosis susceptibility exist, with BALB/c inbred mice being most susceptible. The hydroxyproline levels of F(1) mice resemble the resistant parental strains, indicating that fibrosis susceptibility is a recessive trait. QTL analysis identifies a susceptibility locus on chromosome 15 that significantly affects the stage of fibrosis and hydroxyproline levels. According to standard nomenclature, this locus is called Hfib1 (hepatic fibrogenic gene 1). Hfib1 is defined by genetic markers D15Mit26 and D15Mit122. A suggestive QTL on chromosome 2 colocalizes with the complement factor 5 gene, known to be mutated in the resistant strain A. CONCLUSIONS: The set of inbred strains provides a framework for systematic analysis of fibrogenic genes. QTL mapping is useful to identify genetic susceptibility loci for hepatic fibrosis that might harbor new molecular targets for antifibrotic drug design.     

Genetic susceptibility to diabetes in inbred strains of mice: measurements of proinsulin mRNA and response to dexamethasone

Summary The insulin resistance produced by the recessive db mutation has led to more severe diabetes in C57BL/KsJ mice relative to that in C57BL/6J mice, suggesting genetic differences between the two strains affecting insulin production or insulin action. To assess these parameters blood glucose, serum insulin, pancreatic insulin, and proinsulin mRNA were measured in both normal and diabetic (db/db) KsJ and 6J strains. The mice were compared at 5 weeks of age, prior to the development of insulin lack known to occur with age in KsJ db/db mice. As a further provocation to insulin production, another group of the normal and db/db mice were given dexamethasone for 4 days. In normal mice there were no strain differences in blood glucose, serum insulin, pancreatic insulin, or proinsulin mRNA. Dexamethasone, presumably by augmenting insulin resistance, induced increases in serum insulin and proinsulin mRNA to the same extent in KsJ and 6J mice. In db/db mice, while blood glucose, serum insulin, and proinsulin mRNA were considerably higher than in normal mice, there were no strain differences observed. After dexamethasone the db/db mice exhibited strain differences which included higher blood glucose and higher serum insulin levels in KsJ mice. These findings were compatible with greater insulin resistance in KsJ than in 6J db/db mice. While dexamethasone treatment increased serum insulin in KsJ db/db mice, there was no augmentation of proinsulin mRNA in either strain, suggesting a limit to the insulin synthesis. Analysis of serum insulin/glucose and proinsulin mRNA/glucose ratios demonstrated a dexamethasone-induced increase in serum insulin/glucose in normal and diabetic mice of both strains. An increase in dexamethasone induced proinsulin mRNA/glucose ratio was observed in all but the KsJ db/db mice. This analysis suggested that although insulin secretion in KsJ db/db mice was augmented, the capacity for insulin synthesis had been exceeded. A limitation of insulin production at the level of insulin synthesis might explain the enhanced diabetes susceptibility of this strain.     

Reduced susceptibility to cholesterol gallstone formation in mice that do not produce apolipoprotein B48 in the intestine

It has been found that polymorphisms in the apolipoprotein (APO)-B gene are associated with cholesterol gallstones in humans. We hypothesized that APO-B plays a major regulatory role in the response of biliary cholesterol secretion to high dietary cholesterol and contributes to cholesterol gallstone formation. In the present study, we investigated whether lack of expression of intestinal Apob48 or Apob100 reduces susceptibility to cholesterol gallstones by decreasing intestinal absorption and biliary secretion of cholesterol in male mice homozygous for an "APO-B48 only" allele (Apob(48/48)), an "APO-B100 only" allele (Apob(100/100)), or a wild-type APO-B allele (Apob+/+) before and during an 8-week lithogenic diet. We found that cholesterol absorption was significantly decreased as a result of the APO-B48 deficiency in Apob(100/100) mice compared with wild-type and Apob(48/48) mice, regardless of whether chow or the lithogenic diet was administered. Consequently, hepatic cholesterol synthesis was significantly increased in Apob(100/100) mice compared with wild-type and Apob(48/48) mice. On chow, the APO-B100 deficiency in Apob(48/48) mice with reduced plasma levels of LDL/VLDL--but not HDL cholesterol--induced relative hyposecretion of biliary bile salts and phospholipids accompanying normal biliary cholesterol secretion. Compared with Apob(48/48) and wild-type mice, lithogenic diet-fed Apob(100/100) mice displayed significantly lower secretion rates of biliary cholesterol, but not phospholipid or bile salts, which results in significant decreases in prevalence rates, numbers, and sizes of gallstones. In conclusion, absence of expression of intestinal Apob48, but not Apob100, reduces biliary cholesterol secretion and cholelithogenesis, possibly by decreasing intestinal absorption and hepatic bioavailability.     

Genes in mice that affect susceptibility to cortisone-induced cleft palate are closely linked to Ir genes on chromosomes 2 and 17.

Inbred and congeneic strains of mice have been examined for susceptibility to cortisone-induced cleft palate, and the role of genes linked to H-2 on chromosome 17 has been confirmed. Increasing degrees of susceptibility were associated with the H-2d, H-2b, H-2k, and H-2a haplotypes, respectively, with H-2q and H-2s also being associated with fairly high levels of susceptibility. Evidence was obtained that suggests that one gene maps within the B region of H-2, and that a second H-2 linked gene which acts by complementation maps to the right of E. Another gene affecting this trait is closely linked to the H-3 and Ir-2 loci on the second chromosome.     

Shared and unique susceptibility genes in a mouse model of Graves' disease determined in BXH and CXB recombinant inbred mice

Susceptibility genes for TSH receptor (TSHR) antibodies and hyperthyroidism can be probed in recombinant inbred (RI) mice immunized with adenovirus expressing the TSHR A-subunit. The RI set of CXB strains, derived from susceptible BALB/c and resistant C57BL/6 (B6) mice, were studied previously. High-resolution genetic maps are also available for RI BXH strains, derived from B6 and C3H/He parents. We found that C3H/He mice develop TSHR antibodies, and some animals become hyperthyroid after A-subunit immunization. In contrast, the responses of the F1 progeny of C3H/He x B6 mice, as well as most BXH RI strains, are dominated by the B6 resistance to hyperthyroidism. As in the CXB set, linkage analysis of BXH strains implicates different chromosomes (Chr) or loci in the susceptibility to induced TSHR antibodies vs. hyperthyroidism. Importantly, BXH and CXB mice share genetic loci controlling the generation of TSHR antibodies (Chr 17, major histocompatibility complex region, and Chr X) and development of hyperthyroidism (Chr 1 and 3). Moreover, some chromosomal linkages are unique to either BXH or CXB strains. An interesting candidate gene linked to thyroid-stimulating antibody generation in BXH mice is the Ig heavy chain locus, suggesting a role for particular germline region genes as precursors for these antibodies. In conclusion, our findings reinforce the importance of major histocompatibility complex region genes in controlling the generation of TSHR antibodies measured by TSH binding inhibition. Moreover, these data emphasize the value of RI strains to dissect the genetic basis for induced TSHR antibodies vs. their effects on thyroid function in Graves' disease.     

Genetic control of susceptibility to streptozotocin diabetes in inbred mice: effect of testosterone and H-2 haplotype

Males of certain mouse strains are more susceptible than females to the diabetogenic effect of multiple low doses of streptozotocin (MSZ, 40 mg/kg BW.day X 5). Several investigators linked sensitivity to the potentiating action of androgens and genes of the major histocompatibility (H-2) complex. Our studies were designed to investigate the role of testosterone in MSZ-diabetes induction in males of three C3H stocks: C3H X SW/SnJ (H-2b), C3HeB/FeJ (H-2k), and C3H/OuJ (H-2k). Serum testosterone levels in gonad-intact animals correlated inversely with SZ sensitivity, the more resistant C3HeB/FeJ males having a higher mean level than the other two stocks. Males from each group were castrated at 4 weeks of age and implanted with either testosterone or cholesterol; 4 weeks later they were given MSZ. C3H.SW/SnJ and C3H/OuJ castrates implanted with either testosterone or cholesterol were as sensitive to the hyperglycemic effect of MSZ as the intact controls, whereas C3HeB/FeJ castrates implanted with cholesterol lost sensitivity; this sensitivity could be fully restored by testosterone implants. Surprisingly, there was no difference in the residual pancreatic insulin content (90% reduced) between the SZ-resistant cholesterol-implanted vs. the SZ-sensitive testosterone-implanted C3HeB/FeJ castrates. This demonstrated that the androgen was not potentiating SZ destruction of the beta-cells, but rather was antagonizing the ability of the residual insulin to maintain glycemic control. The present study also indicated that the H-2 complex was not a significant factor predisposing to SZ sensitivity as reflected by marked sensitivity of the C3H/OuJ and C3H.SW/SnJ males vs. the relative resistance of C3HeB/FeJ males sharing the same H-2 haplotype as C3H/OuJ.     

Circannual variation and genetic regulation of hepatic testosterone hydroxylase activities in inbred strains of mice.

Hydroxylation of testosterone by hepatic microsomes at positions 6 alpha, 6 beta, 7 alpha, 15 alpha, and 16 alpha has been studied in C57BL/6J, 129/J, and A/J mice. Differences in hydroxylase activities between the C57BL/6J and A/J strains and between the C57BL/6J and 129/J strains were investigated using standard genetic breeding protocols. In the C57BL/6J X A/J line, 6 alpha- and 7 alpha-hydroxylase activity appeared to be under polygenic control in both sexes, as did 15 alpha-hydroxylase activity in females. The lack of 16 alpha-hydroxylase activity observed in 129/J females behaved as a recessive, autosomal, single locus, sex-limited trait. In several instances, the level of hydroxylase activity at one position appeared to be affected by the level of hydroxylase activity at a second position; however, no clear-cut pattern was discerned. Over a period of a year, a remarkable cycle in total hydroxylase activity for all mice was observed; the average activity was greatest in December and least in April.     

Candidate genes that determine response to salt in the stroke-prone spontaneously hypertensive rat: congenic analysis

The existence of blood pressure quantitative trait loci exaggerated by salt on rat chromosome 2 has been confirmed previously using congenic strains derived from stroke-prone spontaneously hypertensive rats (SHRSP) and Wistar-Kyoto (WKY) rats. This study aimed to dissect the implicated chromosome 2 region and to identify candidate genes based on microarray expression profiling and real-time PCR. A marker-assisted breeding strategy generated congenic strains SP.WKYGla2a (D2Rat13-D2Rat157), SP.WKYGla2c* (D2Wox9-D2Mgh12), and SP.WKYGla2k (D2Mit21-D2Rat157) using SHRSP as the recipient and WKY as the donor strain. The SP.WKYGla2k strain contains a 10-cM congenic interval, which is encompassed within the larger (64-cM) SP.WKYGla2a congenic region. Salt-loaded systolic blood pressure, measured by radiotelemetry, was significantly lower in the SP.WKYGla2a and SP.WKYGla2k strains compared with SHRSP. Salt sensitivity in SP.WKYGla2c* was not significantly different from SHRSP. Exclusion mapping identified a 6-Mbp region harboring genes responsible for salt-sensitive blood pressure regulation. Microarray expression profiling was carried out in whole homogenized kidneys from parental and SP.WKYGla2a strains. Examination of expression data within the minimal congenic interval identified the positional candidates Edg1 and Vcam1, demonstrating significantly elevated renal RNA expression levels in the SHRSP compared with WKY and SP.WKYGla2a congenic strains. These results were confirmed by quantitative real-time PCR. DNA sequencing identified SNPs in both Edg1 and Vcam1 between SHRSP and WKY rats. In conclusion, we have identified a suggestive minimal interval encompassing a 6-Mbp region on rat chromosome 2. This region contains several physiological candidate genes for salt-sensitive hypertension in the SHRSP, including Edg1 and Vcam1, which are differentially expressed and lie on common and functionally important pathways.     

Relationship of route of infection to susceptibility and immune response of inbred mice to Y strain Trypanosoma cruzi

C3HeB/FeJ (C3H) mice infected ip with 10(6), 5 x 10(5), and 10(5) blood-form trypomastigotes (BFTs) of the Y strain of Trypanosoma cruzi were more resistant than C57B1/6 (B6) mice infected in the same manner. This pattern of susceptibility is opposite that reported for other stocks of this parasite. In a second experiment, C3H and B6 mice were infected ip or sc with 2 x 10(6), 10(6), 5 x 10(5), 10(5), or 10(3) Y strain BFTs. C3H mice infected ip with the 3 highest doses were again more resistant than the B6 mice, while mice infected ip with the 2 lowest doses were essentially equivalent in resistance. Thus, the difference in susceptibility was detectable, in terms of parasitemia levels and survival, primarily at the higher infection doses. For the groups infected sc, the pattern of susceptibility reversed. B6 mice infected with the 3 highest doses had lower parasitemia levels than the corresponding C3H mice, while C3H and B6 mice infected with 10(5) or 10(3) BFTs were similar in resistance. Blastogenic responses of lymphoid cells to phytohemagglutinin (PHA) and a soluble trypanosome extract (STE) were compared for C3H mice infected ip or sc to determine if the susceptibility to infection obtained with the 2 routes would be associated with differences in immune responses. Mesenteric lymph node cells (MLNCs) of mice infected ip were responsive to the STE early in infection, while superficial lymph node cells (SLNCs) of these mice were not. C3H mice infected sc had SLNCs which yielded strong responses to STE, while their MLNCs were relatively unresponsive. PHA stimulated responses by lymphoid cells from mice infected ip or sc were similar.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of phospholipids and their molecular species on cholesterol solubility and nucleation in human and model biles.

Much research in the pathophysiology of gall stones has been devoted to various molecular species of bile salts. Recent findings have shown the importance of phospholipids in biliary pathophysiology. In the present study the addition of increasing doses of egg lecithin to human and model biles progressively prolonged the nucleation time. Concurrently biliary cholesterol was shifted from the vesicular to the non-vesicular carrier(s) while the cholesterol/phospholipid ratio of the remaining vesicles was progressively lowered. Model bile solutions of identical lipid concentration were prepared using phosphatidylcholine, phosphatidylserine, and phosphatidylethanolamine as the only phospholipid. With phosphatidylethanolamine most of the cholesterol was shifted to the vesicular carrier while phosphatidylserine shifted most of the cholesterol to the non-vesicular carrier(s). With phosphatidylcholine the cholesterol was distributed in both carriers. Phosphatidyl choline species composed of various acyl fatty acids in the sn-1 and sn-2 positions were used as the sole phospholipid in otherwise identical model bile solutions. With palmitic acid in the sn-1 position and arachidonic acid in the sn-2 position most of the cholesterol was found in the non-vesicular carrier. When stearic acid was used in sn-2 position instead of arachidonic acid most of the cholesterol was found in the vesicular carrier. These and other variations in phospholipid molecular species shifted cholesterol among its carriers and also modified the nucleation time of model biles. Most of these effects were also found upon addition of the various phospholipid species to human biles. These findings show the importance of phospholipid species in biliary pathophysiology and may be useful when trying to manipulate cholesterol carriers and solubility in bile.