Acrosin is essential for sperm penetration through the zona pellucida in hamsters.

During natural fertilization, mammalian spermatozoa must pass through the zona pellucida before reaching the plasma membrane of the oocyte. It is assumed that this step involves partial lysis of the zona by sperm acrosomal enzymes, but there has been no unequivocal evidence to support this view. Here we present evidence that acrosin, an acrosomal serine protease, plays an essential role in sperm penetration of the zona. We generated acrosin-knockout (KO) hamsters, using an in vivo transfection CRISPR/Cas9 system. Homozygous mutant males were completely sterile. Acrosin-KO spermatozoa ascended the female genital tract and reached ovulated oocytes in the oviduct ampulla, but never fertilized them. In vitro fertilization (IVF) experiments revealed that mutant spermatozoa attached to the zona, but failed to penetrate it. When the zona pellucida was removed before IVF, all oocytes were fertilized. This indicates that in hamsters, acrosin plays an indispensable role in allowing fertilizing spermatozoa to penetrate the zona. This study also suggests that the KO hamster system would be a useful model for identifying new gene functions or analyzing human and animal disorders because of its technical facility and reproducibility.

Tetrahydropalmatine Prevents High-Fat Diet-Induced Hyperlipidemia in Golden Hamsters (Mesocricetus Auratus).

BACKGROUND Hyperlipidemia is a major cause of atherosclerotic cardiovascular disease. Tetrahydropalmatine (THP) can exhibit hepatoprotective, anti-arrhythmic, and anti-inflammatory activities. The mechanism of THP on the hyperlipidemia remains unknown; therefore, the present study explored the role of THP in hyperlipidemia. MATERIAL AND METHODS We established an animal model of hyperlipidemia by high-fat diet (HFD) feeding. Blood samples were obtained for determination of serum cholesterol (TC), triglyceride (TG), low-density lipoprotein cholesterol (LDL-c), high-density lipoprotein cholesterol (HDL-c), pro-inflammatory cytokines, and CYP7A1 expression. Histology was performed and inflammation was detected in the liver using hematoxylin-eosin (HE) staining and enzyme-linked immunosorbent assay (ELISA), respectively. The mRNA and protein levels of TLR4 and TRAF-6 were determined by quantitative real-time PCR (qPCR) and Western blot, respectively. RESULTS THP suppressed hepatic lipid accumulation and reduced serum levels of TC, TG, LDL-c, and HDL-c in HFD-fed golden hamsters. THP increased cholesterol 7 a-hydroxylase (CYP7A1) expression and prevented inflammation by the limited reduction in interleukin-6 (IL-6) and tumor necrosis factor-α (TNF-α) expressions in serum and liver. THP slightly increased the ratio of the body/liver weight. THP inhibited the mRNA and protein levels of Toll-like receptor 4 (TLR4) and TNF-receptor associated factor-6 (TRAF-6). CONCLUSIONS These results suggest that THP attenuates hyperlipidemia by multiple effects, including hepatoprotective and anti-inflammatory effects. Moreover, THP also suppressed the expressions of TLR4 and TRAF-6 in golden hamsters.

Maintenance of a fully functional digestive system during hibernation in the European hamster, a food-storing hibernator.

Some small mammals limit energy expenditure during winter conditions through torpor bouts, which are characterized by a decrease in body temperature and metabolic rate. Individuals arise periodically from torpor to restore critical functions requiring euthermia. Although most of the species involved do not feed during hibernation and rely on body reserves to fulfil energy requirements (fat-storing species), others hoard food in a burrow (food-storing species) and can feed during interbout euthermy. Whereas fat-storing species undergo a marked atrophy of the digestive tract, food-storing species have to maintain a functional digestive system during hibernation. Our study aimed to evaluate the absorption capacities of a food-storing species, the European hamster, throughout the annual cycle. In vivo intestinal perfusions were conducted in different groups of hamsters (n=5) during the different life periods, namely before hibernation, in torpor, during interbout euthermy, and during summer rest. The triglyceride, non-esterified free fatty acid, starch, glucose and protein composition of the perfusate was evaluated before and after the 1h perfusion of a closed intestinal loop. Triglyceride, starch and protein hydrolysis rates were similar in hibernating (torpid and euthermic) and non-hibernating hamsters. Intestinal absorption of free fatty acid was also similar in all groups. However, glucose uptake rate was higher during hibernation than during the summer. In contrast with fat-storing species, the intestinal absorption capacities of food-storing species are fully maintained during hibernation to optimize nutrient assimilation during short interbout euthermy. In particular, glucose uptake rate is increased during hibernation to restore glycaemia and ensure glucose-dependent pathways.

Foot-and-mouth disease virus nonstructural protein 2C interacts with Beclin1, modulating virus replication.

Foot-and-mouth disease virus (FMDV), the causative agent of foot-and-mouth disease, is an Apthovirus within the Picornaviridae family. Replication of the virus occurs in association with replication complexes that are formed by host cell membrane rearrangements. The largest viral protein in the replication complex, 2C, is thought to have multiple roles during virus replication. However, studies examining the function of FMDV 2C have been rather limited. To better understand the role of 2C in the process of virus replication, we used a yeast two-hybrid approach to identify host proteins that interact with 2C. We report here that cellular Beclin1 is a specific host binding partner for 2C. Beclin1 is a regulator of the autophagy pathway, a metabolic pathway required for efficient FMDV replication. The 2C-Beclin1 interaction was further confirmed by coimmunoprecipitation and confocal microscopy to actually occur in FMDV-infected cells. Overexpression of either Beclin1 or Bcl-2, another important autophagy factor, strongly affects virus yield in cell culture. The fusion of lysosomes to autophagosomes containing viral proteins is not seen during FMDV infection, a process that is stimulated by Beclin1; however, in FMDV-infected cells overexpressing Beclin1 this fusion occurs, suggesting that 2C would bind to Beclin1 to prevent the fusion of lysosomes to autophagosomes, allowing for virus survival. Using reverse genetics, we demonstrate here that modifications to the amino acids in 2C that are critical for interaction with Beclin1 are also critical for virus growth. These results suggest that interaction between FMDV 2C and host protein Beclin1 could be essential for virus replication.

A tumorigenic cell line derived from a hamster cholangiocarcinoma associated with Opisthorchis felineus liver fluke infection.

AIMS: The food-born trematode Opisthorchis felineus colonizes bile ducts of the liver of fish-eating mammals including humans. There is growing evidence that this liver fluke is a risk factor for cholangiocarcinoma (CCA). Cancer cell lines are necessary for drug screening and for identifying protein markers of CCA. The aim was to establish a cell line derived from cholangiocarcinoma associated with opisthorchiasis felinea. MAIN METHODS: Allotransplantation, immunohistochemistry, karyotype analysis, cell culture techniques, immunocytochemistry and real-time PCR. KEY FINDINGS: Here we repot the establishment of first CCA cell line, CCA-OF, from a primary tumor of an experimental CCA in Syrian hamsters treated with low doses of dimethyl nitrosamine and associated with O. felineus infection. The cell line was found to be allotransplantable. Expression of epithelial and mesenchymal markers (cytokeratin 7, glycosyltransferase exostosin 1, Ca2+-dependent phospholipid-binding protein annexin A1 and vimentin) was demonstrated by immunostaining of the primary tumors, CCA-OF cells, and allotransplants. CCA-OF cells were found to express presumed CCA biomarkers previously detected in both human and experimental tumors associated with the liver fluke infection. The cells were diploid-like (2n = 42-46) with complex chromosomal rearrangements and have morphological features of epithelial-like cells. The usefulness of the CCA-OF cell model for antitumor activity testing was demonstrated by an analysis of effects of resveratrol treatment. It was shown that resveratrol treatment inhibited the proliferation and the migration ability of CCA-OF cells. SIGNIFICANCE: Thus, the allotransplantable CCA-OF cell line can be used in studies on helminth-associated cholangiocarcinogenesis and for the testing of antitumor drugs.

Characteristics of 263K scrapie agent in multiple hamster species.

Transmissible spongiform encephalopathy (TSE) diseases are known to cross species barriers, but the pathologic and biochemical changes that occur during transmission are not well understood. To better understand these changes, we infected 6 hamster species with 263K hamster scrapie strain and, after each of 3 successive passages in the new species, analyzed abnormal proteinase K (PK)-resistant prion protein (PrPres) glycoform ratios, PrPres PK sensitivity, incubation periods, and lesion profiles. Unique 263K molecular and biochemical profiles evolved in each of the infected hamster species. Characteristics of 263K in the new hamster species seemed to correlate best with host factors rather than agent strain. Furthermore, 2 polymorphic regions of the prion protein amino acid sequence correlated with profile differences in these TSE-infected hamster species.

Dietary fatty acid profile influences circulating and tissue fatty acid ethanolamide concentrations in a tissue-specific manner in male Syrian hamsters.

BACKGROUND: The discovery of N­acylethanolamines (NAEs) has prompted an increase in research aimed at understanding their biological roles including regulation of appetite and energy metabolism. However, a knowledge gap remains to understand the effect of dietary components on NAE levels, in particular, heterogeneity in dietary fatty acid (DFA) profile, on NAE levels across various organs. OBJECTIVE: To identify and elucidate the impact of diet on NAE levels in seven different tissues/organs of male hamsters, with the hypothesis that DFA will act as precursors for NAE synthesis in golden Syrian male hamsters. METHOD: A two-month feeding trial was performed, wherein hamsters were fed various dietary oil blends with different composition of 18-C fatty acid (FA). RESULTS: DFA directly influences tissue FA and NAE levels. After C18:1n9-enriched dietary treatments, marked increases were observed in duodenal C18:1n9 and oleoylethanolamide (OEA) concentrations. Among all tissues; adipose tissue brown, adipose tissue white, brain, heart, intestine-duodenum, intestine-jejunum, and liver, a negative correlation was observed between gut-brain OEA concentrations and body weight. CONCLUSION: DFA composition influences FA and NAE levels across all tissues, leading to significant shifts in intestinal-brain OEA concentrations. The endogenously synthesized increased OEA levels in these tissues enable the gut-brain-interrelationship. Henceforth, we summarize that the brain transmits anorexic properties mediated via neuronal signalling, which may contribute to the maintenance of healthy body weight. Thus, the benefits of OEA can be enhanced by the inclusion of C18:1n9-enriched diets, pointing to the possible nutritional use of this naturally occurring bioactive lipid-amide in the management of obesity.

Brain antioxidant levels in hamsters during hibernation, arousal and cenothermia.

Warming from hibernation to cenothermia involves intense metabolic activity coincident with large fluxes in blood flow and is considered to be a period of oxidative stress during which utilization of endogenous antioxidants prevents pathology. Very slow flow brain microdialysis enabled temperature independent sampling of the brain striatal extracellular fluid (ECF) during hibernation, arousal and cenothermia in Syrian hamsters (Mesocricetus auratus). Brain tissue and dialysates were analyzed to provide the first profile of changes in ECF levels of ascorbate (AA), glutathione (GSH) and urate during hibernation and the transition to cenothermia. Brain tissue content of AA and GSH was unchanged between hibernation and cenothermia; however, arousal was associated with substantial oxidation of AA from the brain ECF and plasma compartments. ECF GSH increased during arousal. Brain tissue urate content was decreased 50% during hibernation. ECF urate levels were unchanged in hibernation and cenothermia but transiently increased 100% during arousal. These experiments demonstrate that arousal from hibernation is a suitable experimental model for examination of the mechanisms by which non-pathological tissue integrity is maintained in the face of the generation of free radicals during increasing metabolism, temperature and cerebral reperfusion.

Metabolism of the pancreatic carcinogens N-nitroso-bis(2-oxopropyl)amine and N-nitroso-bis(2-hydroxypropyl)amine in the Syrian hamster.

Metabolisms of the potent pancreatic carcinogens N-nitroso-bis(2-oxopropyl)amine (BOP) and N-nitroso-bis(2-hydroxypropyl)amine (BHP) were studied in male Syrian hamsters. BHP and a new metabolite, N-nitroso-(2-hydroxypropyl)(2-oxopropyl)amine (HPOP), were detected in the urine of hamsters administered BOP and BHP. The rates of HPOP formation from BOP and BHP were determined by the measurement of blood and urine levels at various times after each compound was administered: HPOP was formed readily from BOP, but slowly from BHP. This may explain the different organotropic spectra and carcinogenic potencies of BOP and BHP.

Interaction of dietary fat and protein in spontaneous diseases of Syrian golden hamsters.

The influence of interactions between dietary fat and protein on spontaneous diseases was investigated in Syrian golden hamsters fed two levels of corn oil [4.5 or 18 g/385 kilocalories (kcal)] with each of two levels of casein (9 or 36 g/385 kcal). The four diets were fed to separate groups in two different sequences: 1) Diets were given during weeks 3-7 and followed by control diet (9 g corn oil and 18 g casein/385 kcal), or 2) control diet was fed during weeks 3-7, and the four diets were fed from week 8 until death. Dietary interactions of fat and protein modified spontaneous degenerative, inflammatory, and proliferative diseases in hamsters. For example, amyloidosis in the liver, kidneys, spleen, and adrenal glands was reduced in females by feeding high-fat-high-protein (HF-HP) diet in comparison with low-fat-high-protein (LF-HP) diet during weeks 3-7 or by feeding LP diets at either fat level after 8 weeks. The incidence of hepatic abscess was highest in males consuming HP diet at either fat level after 8 weeks, and hepatic necrosis was observed most often in hamsters fed HF-HP diet after 8 weeks. Gastric and renal vascular calcification and nephrocalcinosis incidences were reduced by 50-100% in hamsters fed HF-HP diet after 8 weeks, and HF diet fed at this time reduced vascular calcification in the heart in both sexes and in the lungs in males. Inflammation was generally influenced similarly by diets fed either during weeks 3-7 or after 8 weeks. In the prostate gland, inflammation was observed most frequently in males fed HF-LP diet; however, in the vagina inflammation was elevated in females fed HF-HP diet and found in the gallbladder more commonly in hamsters fed HF-HP than in those given LF-HP. The incidence of colitis was decreased by giving HF-LP diet during weeks 3-7 or LF-LP diets after week 8. The incidence of gastric ulcer was high in males fed HF diets during weeks 3-7, and intestinal ulcers were high in those fed LF-LP at this time. The adrenal hyperplasia incidence was highest in males given HF-HP diet before or after 8 weeks and in females given this diet after 8 weeks. Similarly, ovarian and hepatic ductal hyperplasia was highest in females fed HF-HP diet after 8 weeks, and gastric and intestinal hyperplasia increased with the rise in fat at both protein levels in both sexes.(ABSTRACT TRUNCATED AT 400 WORDS)

Comparative metabolism of 2,6-dimethylnitrosomorpholine in rats, hamsters, and guinea pigs.

The metabolism of N-[3,5-3H]nitroso-2,6-dimethylmorpholine (NDMM) was studied in female Sprague-Dawley rats. Syrian golden hamsters, and guinea pigs. NDMM induces tumors in the esophagus in rats, pancreatic cancer in hamsters, and hemangioendothelial tumors of the liver in guinea pigs. An intragastric dose of NDMM (2 mg, 2 muCi/animal) was rapidly distributed throughout the tissues of both the rat and hamster, with no apparent accumulation of radioactivity in any one tissue. At low dose levels, NDMM was metabolized rapidly by both species. The hamster appeared to metabolize the compound faster than did the rat or guinea pig. At appreciable amount of radioactivity was excreted in the urine in all three species after 8 hr: approximately 54% in the hamster, 39% in the rat; and 30% in the guinea pig. During the first 24 hr, only a small percentage of the radioactivity excreted by the hamster, rat, and guinea pig was NDMM (0.8, 2, and 0.5%, respectively). High-pressure liquid chromatography analysis of urine collected 24 hr after administration revealed 12 metabolites. Although the urinary metabolites appeared to be similar in all three species, one large difference was the presence of a major urinary metabolite in hamster urine, which was absent or present in only small quantities in the rat and guinea pig. The guinea pig urine also had relatively more radioactivity present in one major fraction than did the hamster or rat.

Metabolism of 1,1,1-trichloro-2,2-bis(p-chlorophenyl)ethane (DDT), 1,1-dichloro-2,2-bis(p-chlorophenyl)ethane, and 1-chloro-2,2-bis(p-chlorophenyl)ethene in the hamster.

The urinary metabolites of 1,1,1-trichloro-2,2-bis(p-chlorophenyl)ethane (DDT), 1,1-dichloro-2,2-bis(p-chlorophenyl)ethane (DDD), and 1-chloro-2,2-bis(p-chlorophenyl)ethene in female hamsters are reported. The principal metabolite of both DDT and DDD is 2,2-bis(p-chlorophenyl) acetic acid. DDT- and DDD-treated animals also excreted small amounts of DDD, 1-chloro-2,2-bis(p-chlorophenyl)ethene, 1,1-dichloro-2,2-bis-(p-chlorophenyl)ethene, 2-hydroxy-2,2-bis(p-chlorophenyl)acetic acid, and 2,2-bis(p-chlorophenyl)ethanol. 1-Chloro-2,2-bis(p-chlorophenyl)ethene is metabolized to afford significant amounts of 2,2-bis(p-chlorophenyl)acetic acid, 2,2-bis(p-chlorophenyl)-ethanol, 2-hydroxy-2,2-bis(p-chlorophenyl)acetic acid, 2,2-bis-(p-chlorophenyl)acetaldehyde, and 1,1-bis(p-chlorophenyl) ethan-1,2-diol. These results indicate that the metabolic disposition of DDT in the hamster, a species refractory to DDT tumorigenicity, is very similar to that observed previously in the mouse, a species sensitive to DDT tumorigenicity. The one exception is that the hamster is not nearly as efficient as the mouse in converting DDT to 1,1-dichloro-2,2-bis(p-chlorophenyl)ethene, a metabolite that is tumorigenic in both species.

Metabolism of deoxycytidine, thymine, and deoxythymidine in the hamster.

The ability of growing and of mature Syrian hamsters to anabolize (to liver DNA) or catabolize (to 14CO2) graded amounts of [2-14C]deoxythymidine (TdR), thymine, or deoxycytidine (CdR) was measured in vivo. Of the three precursors, CdR labeled DNA most efficiently and, as expected, incorporation of all three into DNA was greater in younger animals. The catabolism of [2-14C]CdR to respired 14CO2 was dose dependent and showed no signs whatsoever of saturation, even with the highest dose (greater than 20 mumoles/g liver). In contrast, TdR and thymine were catabolized more slowly and saturation was approached with modest doses. The excretion of CdR in the urine was low and independent of dose, while excretion of TdR and thymine was greater and was dose dependent. Rats tested with an intermediate dose of CdR did not catabolize significant quantities to 14CO2, but did excrete considerably more [C]CdR into the urine than did hamsters. These and other findings suggest that, while the rat and the hamster metabolize thymine (and TdR as well) in a similar fashion, they metabolize CdR quite differently, probably because the hamster has a much higher level of nucleoside aminohydrolase which deaminates CdR and related compounds. Because the human also has a very high level of this enzyme, the hamster appears to be a superior animal model for the study of cytosine-containing compounds intended for human use.

Metabolism of 3 alpha, 7 alpha-dihydroxy-7 beta-methyl-5 beta-cholanoic acid and 3 alpha, 7 beta-dihydroxy-7 alpha-methyl-5 beta-cholanoic acid in hamsters.

The metabolic fate of the bile acid analogs, 3 alpha, 7 alpha-dihydroxy-7 beta-methyl-5 beta-cholanoic acid and 3 alpha, 7 beta-dihydroxy-7 alpha-methyl-5 beta-cholanoic acid, was investigated and compared with that of chenodeoxycholic acid in hamsters. Both bile acid analogs were absorbed rapidly from the intestine and excreted into bile at rates similar to that of chenodeoxycholic acid. In the strain of hamster studied, the biliary bile acids were conjugated with both glycine and taurine. After continuous intravenous infusion, chenodeoxycholic acid and the analogs became the major bile acid constituents in bile. After oral administration of a single dose of these compounds, fecal analysis revealed the existence of unchanged material (25-35%) as well as considerable amounts of metabolites (65-75%). The major metabolites excreted into feces were more polar than the starting material and were tentatively identified as trihydroxy-7-methyl compounds by radioactive thin-layer chromatography. However, monohydroxy compounds were also found in the fecal extracts. These results show that chenodeoxycholic acid and ursodeoxycholic acid with a methyl group at the 7-position are more resistant to bacterial 7-dehydroxylation than the normally occurring bile acids and that a certain proportion of these analogs is hydroxylated to give the corresponding trihydroxy compound(s). In a control experiment, about 5% of administered chenodeoxycholic acid was metabolized to a trihydroxy bile acid, but most of the compound (95%) was transformed into lithocholic acid.

Metabolic consequences of limited substrate anion permeability in brown fat mitochondria from a hibernator, the golden hamster.

Brown fat mitochondria obtained from a hibernator, the golden hamster, were investigated in order to elucidate the significance of membrane permeability for metabolic functioning at different temperatures. The mitochondria were shown to have active permeases for phosphate and pyruvate, but very poorly developed permeases for di- and tricarboxylate substrate anions. This was shown with both osmotic swelling techniques and respiration-driven uptake studies. It was shown that the very limited malate permeation observed was compatible with it being a non-carrier-mediated diffusion process. The role of malate transport in supporting fatty-acid oxidation in vitro as a function of temperature was studied in detail. The results support our earlier suggestion that physiologically pyruvate carboxylase probably functions to generate oxaloacetate when high concentrations of condensing partner are needed during thermogenesis. They may also explain earlier observations that acetate was produced from palmitoyl-carnitine at low temperatures even when malate was present; this is here shown to be due to the limited malate permeability at these low temperatures. Thus, even at the body temperature of the hibernating hamster (4-5 degrees C), brown fat is probably able to combust fatty acids totally.

Effect of thyroid status on alpha- and beta-catecholamine responsiveness of hamster adipocytes.

It has been suggested that part of the increased beta-catecholamine responsiveness in hyperthyroid animals is due to a decrease in alpha-catecholamine action. The present results indicate that neither hyperthyroidism nor hypothyroidism altered the alpha 2-adrenergic inhibition of adenylate cyclase or the alpha 1-adrenergic stimulation of phosphatidylinositol turnover in adipocytes from the white adipose tissue of hamsters. No effect of hyperthyroidism was found on the Kd for binding of [3H]dihydroergocryptine or the number of binding sites in membranes prepared from hamster adipocyte tissue. The stimulation of cyclic AMP due to beta-catecholamines was enhanced in adipocytes from hyperthyroid hamsters, as was lipolysis. However, in adipocytes from hyperthyroid hamsters the maximal stimulation of cyclic AMP due to isoproterenol, ACTH or epinephrine plus yohimbine, as seen in the presence of adenosine deaminase and theophylline, was less than in adipocytes from euthyroid hamsters. The activation of adenylate cyclase by isoproterenol was the same in membranes from hyperthyroid as compared to those from euthyroid hamsters in the absence or presence of guanine nucleotides. These data suggest that thyroid status has little effect on alpha-catecholamine action by enhances the activation of lipolysis by beta-catecholamine agonists.

Characteristics of the lipolytic beta-adrenergic receptors in hamster adipocytes.

Hamster adipocyte beta-adrenergic receptors were characterized by the effect on the lipolysis rate of several selective beta-adrenergic agonists and antagonists. Prenalterol and procaterol, selective beta 1- and beta 2-agonists, respectively, both stimulated the lipolysis rate half-maximally at 1-2 microM, a concentration approximately 100-fold higher than that needed for half-maximal stimulation by isoprenaline. The maximal procaterol effect was similar to that of isoprenaline, while the effect of prenalterol was 40% lower. Submaximally isoprenaline-stimulated lipolysis was half-maximally inhibited by propranolol at 0.2 microM and by atenolol and H 35/25, selective beta 1- and beta 2-antagonists, at 23 and 6 microM concentration, respectively. Highly specific beta 1 and beta 2 stimulation was induced by incubation with prenalterol or procaterol, with simultaneous maximal selective beta 2 or beta 1 inhibition, respectively. The maximal beta 2 stimulation was approximately twice the corresponding beta 1 effect under these conditions, the sum of both effects closely approaching that of maximal nonselective beta-adrenergic stimulation with isoprenaline. Similar results were obtained with the selective beta 2-antagonist, ICI 118,551, or the beta 1-antagonists, pamatolol and practolol. The findings are most easily explained by the existence of a heterogeneous beta 1- and beta 2-adrenergic receptor population on hamster adipocytes.

Comparison of implantation and cytotoxicity testing for initially toxic biomaterials.

To evaluate the predictive value of cytotoxicity testing, the present study compares the in vivo tissue responses to in vitro cytotoxicity before and after implantation. Material toxicity was caused by addition of the toxic substance Zincdiethyldithiocarbamate (ZDEC) that is used as a standard for in vitro cytotoxicity testing. Polyurethane discs with the addition of 0.5% or 1% ZDEC as well as nontoxic discs were inserted in the abdominal wall of rats for 1 day up to 6 weeks. After explantation the foreign body response was analyzed immunohistochemically. An in vitro reanalysis of the explanted reference materials (RMs) revealed remaining high concentrations of toxic compounds after 1-week implantation, whereas no toxicity was seen after 6 weeks implantation. This was reflected in the foreign body response where a significantly thicker capsule and more inflammatory cells were seen at 1 week for the toxic implants. Over time, with decreasing toxicity, these differences disappeared. Test samples that only were subjected to in vitro extraction with water did not elute toxic compounds to the same extent as the in vivo conditions. It is concluded that many clinically useful implant materials may be unnecessarily rejected due to the results of in vitro tests.

Species-specificity of corticosteroid receptors in hamster and rat brains.

In vitro cytosolic receptor binding assays and autoradiographical procedures have shown the localization and properties of two corticoid receptor types in the brain of the rat, a species in which corticosterone (B) is the predominant circulating glucocorticoid. The present study was designed to examine the localization, heterogeneity, and binding specificity of corticosteroid receptors in the brain of the hamster, a species which secretes B and cortisol (F), the latter being the predominantly circulating form. Our results show that two corticoid receptor systems can also be distinguished in the hamster brain. The type I receptor has an almost exclusive localization in the hippocampal region and the amounts measured in hypothalamic or whole brain (without the hippocampus) were negligible. The type II receptor, on the other hand, has a wider distribution in the brain. Scatchard and Woolf analyses of the binding data revealed that the hamster type I receptor has similar affinity to both F and B [dissociation constant (Kd) 0.9 nM]. In contrast the rat type I binds with higher affinity to B (Kd, 0.9 nM) than to F (Kd, 2.2 nM). The hamster type II binds to F with much higher affinity (Kd, 2.9 nM) than does the rat type II to F (Kd, 20.1 nM). This was similarly observed, although less pronounced in the binding of the hamster type II and the rat type II to B (Kd, 0.5 and 3.9 nM, respectively). Analysis of relative binding affinity of each receptor type gave the following results. Hamster type I: F greater than B much greater than aldosterone (ALDO) greater than dexamethasone (DEX); rat type I: B greater than F greater than ALDO greater than DEX; hamster type II: B greater than DEX greater than F much greater than ALDO; rat type II: DEX greater than B much greater than F much greater than ALDO. Graded doses of F or B given sc to adrenalectomized animals result in differential occupancy of the two receptor systems. In hamster, 1.0 microgram F vs. 1.0 mg B/100 g BW is required to occupy 80% of type I site. The rat shows the opposite (1.0 microgram B vs. 5.0 to 10.0 mg F/100 g BW to occupy type I to the same extent). The hamster type II is 80-90% occupied by an equal dose of F or B (1.0 mg/100 g BW) whereas in the rat, F at 5-10 mg/100 g BW (doses 5-10 times that of B) is required to achieve this same occupancy. This data demonstrate the

Isolation and characterization of hamster luteinizing hormone.

Hamster pituitaries were collected over an 8-yr period to obtain 3.5 g of dried pituitaries that were submitted to fractionation by extraction with 40% ethanol-acetate buffer at pH 5.5. The 80% acetone precipitate contained all of the gonadotropin activity. This enriched fraction was further purified by Sephadex G-100 and CM-Sephadex chromatography to obtain 4 mg purified hamster LH (haLH). From 1.5 mg haLH, 0.6 mg of the alpha- and beta-subunits were isolated by countercurrent distribution. haLH assayed 0.53 times NIH-LH-S19 by radioligand assay or 0.16 times NIH-LH-S19 by rat Leydig cell steroidogenesis assay. The amino acid N-terminal sequence was: haLH alpha, L-P-D-G-D-F-T-M-Q-G-C-P-; and haLH beta, S-R-G-P-L-R-P-L-C-R-P-I-N*-A-, as represented by the single letter code. The asparagine residue marked by an asterisk was placed by analogy, as this is apparently a carbohydrate-bearing residue. The amino acid compositions of haLH and its subunits are presented. Both subunits are glycoproteins.