Ketone bodies, potential therapeutic uses.

Ketosis, meaning elevation of D-beta-hydroxybutyrate (R-3hydroxybutyrate) and acetoacetate, has been central to starving man's survival by providing nonglucose substrate to his evolutionarily hypertrophied brain, sparing muscle from destruction for glucose synthesis. Surprisingly, D-beta-hydroxybutyrate (abbreviated "betaOHB") may also provide a more efficient source of energy for brain per unit oxygen, supported by the same phenomenon noted in the isolated working perfused rat heart and in sperm. It has also been shown to decrease cell death in two human neuronal cultures, one a model of Alzheimer's and the other of Parkinson's disease. These observations raise the possibility that a number of neurologic disorders, genetic and acquired, might benefit by ketosis. Other beneficial effects from betaOHB include an increased energy of ATP hydrolysis (deltaG') and its linked ionic gradients. This may be significant in drug-resistant epilepsy and in injury and anoxic states. The ability of betaOHB to oxidize co-enzyme Q and reduce NADP+ may also be important in decreasing free radical damage. Clinical maneuvers for increasing blood levels of betaOHB to 2-5 mmol may require synthetic esters or polymers of betaOHB taken orally, probably 100 to 150 g or more daily. This necessitates advances in food-science technology to provide at least enough orally acceptable synthetic material for animal and possibly subsequent clinical testing. The other major need is to bring the technology for the analysis of multiple metabolic "phenotypes" up to the level of sophistication of the instrumentation used, for example, in gene science or in structural biology. This technical strategy will be critical to the characterization of polygenic disorders by enhancing the knowledge gained from gene analysis and from the subsequent steps and modifications of the protein products themselves.

The effect of 7-oxo-DHEA acetate on memory in young and old C57BL/6 mice.

7-Oxo-dehydroepiandrosterone, which can be formed from dehydroepiandrosterone (DHEA) by several mammalian tissues, is more effective than its parent steroid as an inducer of thermogenic enzymes when administered to rats. Using the Morris water maze procedure, we tested DHEA and its 7-oxo-derivative for their ability to reverse the memory abolition induced by scopolamine in young C57BL/6 mice, and for their effect on memory in old mice. A single dose of 7-oxo-DHEA-acetate at 24 mg/kg b.w. completely reversed the impairment caused by 1 mg of scopolamine per kg b.w. (P < 0.001). DHEA (20 mg/kg) was also effective (P < 0.01). In old mice given the same single doses followed by feeding 0.05% of the respective steroid in the diet, memory of the water maze training was retained through a four week test period in mice receiving 7-oxo-DHEA-acetate (P < 0.05) but not in the control or DHEA-treated groups. When old mice were not tested until five weeks after being trained 7-oxo-DHEA exerted a slight, but statistically insignificant, improvement in memory retention. The possible effect of 7-oxo-DHEA in human memory problems deserves investigation.

Flux of the L-serine metabolism in rat liver. The predominant contribution of serine dehydratase.

L-Serine metabolism in rat liver was investigated, focusing on the relative contributions of the three pathways, one initiated by L-serine dehydratase (SDH), another by serine:pyruvate/alanine:glyoxylate aminotransferase (SPT/AGT), and the other involving serine hydroxymethyltransferase and the mitochondrial glycine cleavage enzyme system (GCS). Because serine hydroxymethyltransferase is responsible for the interconversion between serine and glycine, SDH, SPT/AGT, and GCS were considered to be the metabolic exits of the serine-glycine pool. In vitro, flux through SDH was predominant in both 24-h starved and glucagon-treated rats. Flux through SPT/AGT was enhanced by glucagon administration, but even after the induction, its contribution under quasi-physiological conditions (1 mM L-serine and 0.25 mM pyruvate) was about (1)/(10) of that through SDH. Flux through GCS accounted for only several percent of the amount of L-serine metabolized. Relative contributions of SDH and SPT/AGT to gluconeogenesis from L-serine were evaluated in vivo based on the principle that 3H at the 3 position of L-serine is mostly removed in the SDH pathway, whereas it is largely retained in the SPT/AGT pathway. The results showed that SPT/AGT contributed only 10-20% even after the enhancement of its activity by glucagon. These results suggested that SDH is the major metabolic exit of L-serine in rat liver.

Steroidal allylic fluorination using diethylaminosulfur trifluoride: a convenient method for the synthesis of 3 beta-acetoxy-7 alpha- and 7 beta-fluoroandrost-5-en-17-one.

This paper discusses our findings regarding fluorination of the diastereomeric 3 beta-acetoxy-7-hydroxyandrost-5-en-17-ones (3 and 4) at the allylic 7-hydroxyl group using diethylaminosulfur trifluoride under various experimental conditions. The reaction led to the formation of allylic 7 alpha- and 7 beta-fluoro derivatives, 6 and 7, contaminated with small amounts of 3 beta-acetoxy-5 alpha-fluoroandrost-6-en-17-one (8), the rearrangement product, and 3 beta-acetoxyandrosta-4,6-dien-17-one (9), the elimination product. However, synthesis of 3 beta-acetoxy-7 alpha-fluoroandrost-5-en-17-one (6) and 3 beta-acetoxy-7 beta-fluoroandrost-5-en-17-one (7) has been achieved in high isomeric purity by careful manipulation of the experimental conditions. Also included herein is a convenient chemical synthesis of pure 3 beta-acetoxy-7 alpha-hydroxyandrost-5-en-17-one (4) and 3 beta-acetoxy-7 beta-hydroxyandrost-5-en-17-one (3), the starting materials for the present fluorination reaction. The structure of a degradation product, 3 beta-acetoxy-5 alpha-hydroxyandrost-6-en-17-one (5), has been established by X-ray diffraction analysis to ascertain unambiguously its absolute configuration.

Electron microscopic immunolocalization of caltrin proteins in guinea pig seminal vesicles.

Caltrins, the small, basic proteins of the seminal vesicle secretion that inhibit calcium transport into epididymal spermatozoa, and consequently the onset of the acrosome reaction and the hyperactivated motility, were localized in the epithelial cells and the lumen of the seminal vesicles of the guinea pig by an immunocytochemical procedure and electron microscopy. Rabbit antisera against each protein (caltrin I or II), and goat anti-rabbit IgG antiserum labeled with colloidal gold were used to detect the caltrin immunoreaction. The subcellular distribution of the gold labeling was occasionally localized in the rough endoplasmic reticulum but mainly within big secretory vacuoles containing low electron-dense material, which are components of the Golgi complex known as condensing vacuoles. These are involved in the intracellular transport, storage, and discharge of secretory proteins. Gold-labeled material released to the lumen was also detected. There was no clear evidence that the discharge was mediated by an exocytotic process. Immunoreaction was observed neither in the electron-dense core nor in the electron-lucent halo of the typical secretory granules of the epithelial cells of the seminal vesicles. Using light microscope immunocytochemistry, intense positive immunoreactivity was detected in the material secreted to the lumen but not on the epithelial cell layer. Only those cells undergoing a degenerative process and showing a picnotic nucleus and condensed cytoplasmic matrix exhibited detectable immunoreaction when gold label and silver intensification were applied. The same distribution of the immunoprobes was obtained by electron or light microscopy when antiserum to either I or II was used. It would appear that the two caltrin proteins of the guinea pig are synthesized in the rough endoplasmic reticulum of the epithelial cells and transported quickly to the Golgi complex where the secretory vacuoles (condensing vacuoles) are formed. The proteins are transported by the secretory vacuoles to the apical ends of the cells to be discharged into the lumen.

Effects of dehydroepiandrosterone and carnitine treatment on rat liver.

It is well established that DHEA treatment is associated in the rat to an increase in fatty acids metabolism. This condition would require levels of L-carnitine much higher than those physiologically present in the liver. The possibility thus exist that during DHEA treatment the concentration of L-carnitine may become a limiting factor for fatty acids oxidation and therefore responsible of some of the effects observed after administration of the hormone. The present experiments were designed to test this hypothesis. The results show that the increase in the levels of peroxisomal enzymes induced in hepatocytes by DHEA, is greatly reduced by parallel administration of L-carnitine. Furthermore, L-carnitine administration counteracts the effect of DHEA on mitochondrial structure. On the contrary, carnitine has no significant effect on the reduction in weight gain observed upon short- or long-term treatment with DHEA.

Lysogenic activity of enhancer caltrin and the influence of phospholipids on its expression.

Enhancer caltrin permeabilizes the plasma membrane of bovine epididymal spermatozoa as indicated by the release of hyaluronidase from the acrosome and lactate dehydrogenase (LDH) from the sperm cytosol. A previously reported increased calcium uptake by the sperm in the presence of enhancer caltrin was apparently due, in part, to calcium entry into the mitochondria, which had become accessible to external calcium. At 37 microM (200 micrograms/ml), enhancer caltrin released about 30% of the total hyaluronidase in the acrosome and 50% of the cytosolic LDH from epididymal sperm (4 x 10(7)/ml). This event was prevented by phosphatidylserine (PS), presumably through caltrin-phospholipid complex formation, whereas phosphatidylcholine (PC) was ineffective. Cardiolipin induced the release of LDH and this too was prevented by enhancer caltrin. Lysophosphatidylserine (LPS), on the other hand, potentiated the lysogenic activity of enhancer caltrin, promoting the release of the full complement of hyaluronidase and LDH even at a molar ratio of only 1:1 with caltrin. The effect of mixtures of LPS and PS on the lysogenic property of enhancer caltrin was investigated, and it was found that PS suppressed the potentiating effect of LPS. Release of hyaluronidase and LDH took place only when the LPS/PS molar ratio was greater than 2. The implications of these findings for the role of caltrin in mammalian fertilization are discussed.

Isolation and characterization of a 54-kilodalton precursor of caltrin, the calcium transport inhibitor protein from seminal vesicles of the rat.

A basic 54-kDa protein (pI approximately 8.8) that cross-reacts with anti-caltrin antisera has been detected and isolated by gel filtration and cation exchange chromatography from seminal vesicle content of the rat. The soluble protein spontaneously precipitated in NaHCO3-buffered solution at pH 7.8, but it was kept soluble in imidazole buffer containing EDTA and dithiothreitol at pH 7.0. In addition to the main band of 54 kDa, two faint immunoreactive fractions with molecular weights around 45,000 and 14,000 were also revealed by Western blotting. The presence of the rat caltrin sequence within the primary structure of the 54-kDa molecule has been investigated by sequencing the peptides generated by trypsin digestion. The sequence of the first 46 amino acid residues of rat caltrin has been found in one of the fragments produced by enzymatic cleavage. However, the exact location of the caltrin sequence in the whole 54-kDa protein has not been determined. The purified 54-kDa protein did not inhibit Ca2+ uptake by epididymal spermatozoa. Results indicated that this molecule represents an inactive precursor of caltrin and is enzymatically processed in the lumen of the seminal vesicle to the small and active calcium transport inhibitor protein. The immunoreactive proteins with intermediate molecular weights (45,000 and 14,000) could represent partially degraded products of the precursor. The lack of inhibitory activity of the precursor may be related to the molecule's having a size and conformation that would make it unable to interact with caltrin receptors on the sperm surface.

Concerning the mechanism of increased thermogenesis in rats treated with dehydroepiandrosterone.

Dehydroepiandrosterone (DHEA) treatment of rats decreases gain of body weight without affecting food intake; simultaneously, the activities of liver malic enzyme and cytosolic glycerol-3-P dehydrogenase are increased. In the present study experiments were conducted to test the possibility that DHEA enhances thermogenesis and decreases metabolic efficiency via transhydrogenation of cytosolic NADPH into mitochondrial FADH2 with a consequent loss of energy as heat. The following results provide evidence which supports the proposed hypothesis: (a) the activities of cytosolic enzymes involved in NADPH production (malic enzyme, cytosolic isocitrate dehydrogenase, and aconitase) are increased after DHEA treatment; (b) cytosolic glycerol-3-P dehydrogenase may use both NAD+ and NADP+ as coenzymes; (c) activities of both cytosolic and mitochondrial forms of glycerol-3-P dehydrogenase are increased by DHEA treatment; (d) cytosol obtained from DHEA-treated rats synthesizes more glycerol-3-P during incubation with fructose-1,6-P2 (used as source of dihydroxyacetone phosphate) and NADP+; the addition of citrate in vitro further increases this difference; (e) mitochondria prepared from DHEA-treated rats more rapidly consume glycerol-3-P added exogenously or formed endogenously in the cytosol in the presence of fructose-1,6-P2 and NADP+.

Purification, structure, and characterization of caltrin proteins from seminal vesicle of the rat and mouse.

Caltrins, small basic proteins that inhibit calcium uptake by epididymal spermatozoa, have been purified from seminal vesicle content of the mouse and rat. Mouse caltrin (M(r) 8,476) contains 75 amino acid residues, 14 basic, 5 acidic, and 7 cysteines while rat caltrin (M(r) 6,217) has 56 residues, 10 basic, 5 acidic, and 6 cysteines; their pI values are 10.2 and 9.3, respectively. The proteins did not react with Ellman's reagent unless the cystine residues were previously reduced. The primary structures were determined by sequencing fragments generated by trypsin, clostripain, and endoproteinase Lys-C digestion. The sequences were ordered to give the total structural formula. The two molecules have no sequence similarity and are different from those of the bull and guinea pig previously reported. Only rat caltrin has a sequence of 13 residues nearly identical to that in guinea pig caltrin I. Both rat and mouse caltrin react with antibodies against bovine and guinea pig caltrins. Reduction and alkylation of cysteine residues suppressed the immunologic response of mouse caltrin; however, modified rat caltrin retained partially its immunoreactivity with the antiserum against guinea pig caltrin I. The same treatment abolished the calcium transport inhibitory activity of mouse caltrin and greatly reduced that of rat caltrin. It is likely that rat and mouse caltrins have the same physiological function as proposed for bovine caltrin; namely, to regulate the development of the Ca(2+)-dependent processes that "capacitate" sperm for fertilization.

Functional properties of caltrin proteins from seminal vesicle of the guinea pig.

Caltrin proteins from seminal vesicle content of the guinea pig bind with great specificity to different regions of the spermatozoa. Indirect immunofluorescence studies with polyclonal antibodies showed that caltrin I binds to the head, on the acrosomal cup, while caltrin II binds on the principal tail and the neck. No fluorescence was detected either in the midpiece or in the post-acrosomal area of the head when sperm were exposed to either of the caltrins. Calcium-induced hyaluronidase release, which occurs during the acrosomal reaction, was dramatically inhibited by caltrin I (approximately 85% inhibition). Caltrin II was less effective in preventing the enzyme release (approximately 50% inhibition). Chemical modification of the structure modified the biological activity of the two caltrins. Reduction and carboxymethylation of the cysteine residues diminished the inhibitory activity on 45Ca2+ uptake and reduced the ability of the proteins to react with their antibodies. Removal of the carbohydrate portion by chemical deglycosylation transformed the inhibitor proteins into enhancers of calcium uptake into the spermatozoa. Caltrin proteins from the guinea pig appear to play the same physiological role as bovine caltrin, regulating specifically calcium transport across the spermatozoal membranes related with the acrosome reaction and hyperactivation process. The dual behavior of caltrins to inhibit or enhance Ca2+ uptake enables them to fulfill this function. Nevertheless, molecular mechanisms different from those described for bovine caltrin seem to be involved in the control of the functional activity of the guinea pig caltrins.

Bovine spermatozoa incorporate 32Pi into ADP by an unknown pathway.

Intact ejaculated bovine sperm incorporate 32Pi into ADP to a specific activity two to three times higher than into ATP. This contrasts with other cell types where ATP specific activity is higher than that of ADP. Predominant labeling of ADP may be partially due to compartmentation of ATP, but removal of cytosolic ATP does not change the relative labeling of ADP and ATP. Dilution of extracellular 32Pi following labeling resulted in loss of 70% of label from ADP but only 50% loss from gamma-ATP at 26 min. ADP was labeled in the absence of detectable ATP in the presence of rotenone plus antimycin. Fractionation of ejaculated sperm yielded midpieces that are depleted of adenylate kinase and have coupled respiration. ATP was labeled with 32Pi, but ADP was not in midpieces. Evidence for mitochondrial substrate level phosphorylation-supported incorporation of 32Pi into nucleotides was observed for intact sperm incubated with pyruvate and inhibitors of oxidative phosphorylation, but this activity did not occur in midpieces and does not appear to explain disproportionate labeling of ADP. We conclude that labeling of ADP in intact and permeabilized cells occurs by two pathways; one involves adenylate kinase, and the other is an unknown pathway which may be independent of ATP.

Antioxidant enzyme response to selenium deficiency in rat myocardium.

Influences of dietary selenium (Se) deficiency, physical training and an acute bout of exercise on myocardial antioxidant enzyme activity, lipid peroxidation and related biochemical properties were investigated in post-weanling male Sprague-Dawley rats. An experimental group was fed a diet containing less than 0.01 mg Se/kg and had free access to distilled water (Se-D), whereas control rats were supplemented with 0.5 mg Se/l in drinking water (Se-A). Se deficiency depleted heart mitochondrial and cytosolic Se-dependent glutathione peroxidase activity to 24 and 3%, respectively, of those in Se-A rats. Heart mitochondrial superoxide dismutase (Mn SOD) activity was 24% higher (p less than 0.05) in Se-D than in Se-A rats. Cytosolic (copper-zinc) SOD and catalase activities were not altered, whereas glutathione S-transferase activity was significantly decreased in Se-D (p less than 0.01). Myocardial antioxidant enzyme activities were not affected by either training or an acute exercise bout. Heart lipid peroxidation and activities of several enzymes in substrate metabolism were also unaffected by Se or exercise. It is concluded that rat heart has sufficient reserve of antioxidant enzyme capacity in coping with oxidative stress imposed by Se deficiency or exercise. The adaptation of Mn SOD may reveal its potential role in myocardial antioxidant defense.

Stimulation of Ca2+ uptake into epididymal bull spermatozoa by analogues of amiloride.

Certain amiloride analogues 3',4'-dichlorobenzamil 2',4'-dimethylbenzamil and alpha',2'-benzobenzamil hydrochloride (ATBB) stimulate calcium accumulation and motility by epididymal bovine spermatozoa. This stimulation can be seen at a range of 0.1-0.4 mM, while at higher concentration there is inhibition of calcium uptake by these amiloride analogues. The amiloride derivative 5-(4-chlorobenzyl)-2',4'-dimethylbenzamil (CBDMB), which bears a 4-chlorobenzyl substituent on the 5-amino nitrogen atom, did not stimulate calcium uptake. The amiloride analogue 3',4'-dichlorobenzamil inhibits the Na+/Ca2(+)-exchange activity in isolated plasma membrane vesicles, and the stimulatory effect of 3',4'-dichlorobenzamil on calcium uptake into epididymal sperm could be seen in Na(+)-free medium. Thus, the stimulation of Ca2+ accumulation in the cells caused by 3',4'-dichlorobenzamil is not a result of inhibiting the Na(+)-dependent Ca2+ clearance. There is no stimulation of Ca2+ uptake into ejaculated cells by adding 3',4'-dichlorobenzamil, which is not due to the presence of the calcium-transport inhibitor (caltrin) in these cells [Rufo, G.A., Schoff, P.K. & Lardy, H.A. (1984) J. Biol. Chem. 259, 2547-2552]. The stimulatory effect of 3',4'-dichlorobenzamil on Ca2+ uptake is inhibited by the voltage-dependent Ca2(+)-channel blockers nifedipin and diltiazem. This indicates that the stimulation of Ca2+ uptake by the amiloride analogues is due to the activation of a voltage-dependent Ca2+ channel of the plasma membrane.

Calcium transport in bovine sperm mitochondria: effect of substrates and phosphate.

Calcium uptake into filipin-treated bovine spermatozoa is completely inhibited by the uncoupler CCCP or by ruthenium red. Both Pi and mitochondrial substrates are required to obtain the maximal rate of calcium uptake into the sperm mitochondria. Bicarbonate and other anions such as lactate, acetate or beta-hydroxybutyrate do not support a high rate of calcium uptake. There are significant differences among various mitochondrial substrates in supporting calcium uptake. The best substrates are durohydroquinone, alpha-glycerophosphate and lactate. Pyruvate is a relatively poor substrate, and its rate can be greatly enhanced by malate or succinate but not by oxalacetate or lactate. This stimulation is blocked by the dicarboxylate translocase inhibitor, butylmalonate and can be mimiced by the non-metabolized substrate D-malate. The Ka for pyruvate was found to be 17 microM and 67 microM in the presence and absence of L-malate, respectively. The Ka for L-malate is 0.12 mM. It is suggested that in addition to the known pyruvate/lactate translocase there is a second translocase for pyruvate which is malate/succinate-dependent and does not transport lactate. In the presence of succinate, glutamate stimulates calcium uptake 3-fold, and this effect is not inhibited by rotenone. In the presence of glutamate plus malate or oxalacetate there is only an additive effect. It is suggested that glutamate stimulates succinate transport and/or oxidation in bovine sperm mitochondria. The alpha-hydroxybutyrate is almost as good as lactate in supporting calcium uptake. Since the alpha-keto product is not further metabolized in the citric acid cycle, it is suggested that lactate can supply the mitochondrial needs for NADH from its oxidation to pyruvate by the sperm lactate dehydrogenase x. Thus, when there is sufficient lactate in the sperm mitochondria, pyruvate need not be further metabolized in the citric acid cycle in order to supply more NADH.

Bovine seminal plasma constituents modulate the activity of caltrin, the calcium-transport regulating protein of bovine spermatozoa.

Adsorption of caltrin on a cation exchanger during purification transformed it from inhibitor to enhancer of calcium uptake. Ether extracts of acidified preparations of bovine seminal plasma transformed enhancer caltrin back to inhibitory caltrin; this capacity of the ether extracts was lost after incubation with an anion exchanger, indicating that anions in the extract could be responsible for the reversal of caltrin activity. Of the anions identified in the ether extract of acidified bovine seminal plasma, phosphatidylserine converted enhancer caltrin to the inhibitory form at pH 7.4. Citrate at millimolar concentrations lowered calcium uptake of sperm in the presence of enhancer caltrin to near control levels. Cardiolipin at concentrations comparable to its natural occurrence in the seminal plasma prevented enhancer caltrin from stimulating the sperm cells to take up calcium above their usual capacity. Dipalmitoylphosphatidylglycerol, phosphatidylcholine derived from bovine brain, phosphatidylethanolamine from bovine heart, and other phospholipids with transition temperatures higher than the assay temperature had no effect on the activity of enhancer caltrin, while dimyristoylphosphatidylcholine had an effect on enhancer caltrin similar to that of citrate. Phosphatidylinositol from soybean was also capable of lowering caltrin-stimulated calcium uptake in bovine sperm to control levels. Data on enhancer caltrin fluorescence in the presence of phosphatidylserine from bovine brain suggest conformational changes in the protein due to binding of the phospholipid. In comparison, the phosphatidylcholine from bovine brain appeared not to alter enhancer caltrin.

Purification and structure of caltrin-like proteins from seminal vesicle of the guinea pig.

Two different small proteins that cross-react with the antiserum against bovine caltrin (calcium transport inhibitor) have been purified from the seminal vesicle contents of the guinea pig. The primary structure and some molecular characteristics of the pure proteins are reported. The two proteins interact with concanavalin A indicating the presence of carbohydrates in their molecules. Chemical deglycosylation with trifluoromethanesulfonic acid, after reduction and carboxymethylation, results in complete loss of affinity for the lectin. Removal of sugar components from the structure destroys the ability of caltrin-like proteins to react with antibodies to bovine caltrin. The protein moving faster on polyacrylamide gel electrophoresis is designated guinea pig caltrin I, the other is II. They contain 45 and 55 amino acids, and the molecular weights of the peptide portions are 5082 and 6255, respectively. Although they have entirely different amino acid sequences, they share some common features: recognition by rabbit antibodies to bovine caltrin, the predominance of basic residues and the presence of 3 cysteine residues in fraction I and 8 in fraction II. The proteins have pI values of 9.5 and 10.2, respectively, which are consistent with the amino acid composition. The two pure fractions are approximately equally effective, on a weight basis, as inhibitors of 45Ca2+ uptake by guinea pig spermatozoa. The data presented reinforce the hypothesis that caltrin-like proteins are responsible for the previously reported (Coronel, C.E., San Agustin, J., and Lardy, H.A. (1988) Biol. Reprod. 38, 713-722), calcium-transport inhibitor activity detected in reproductive tract fluid from adult male guinea pigs.

Inhibition by caltrin of calcium transport into spermatozoa, liver and heart mitochondria.

The calcium-transport inhibitor, caltrin, isolated from bovine seminal fluid inhibits calcium accumulation by bovine epididymal spermatozoa, spermatozoal mitochondria, rat liver mitochondria and beef heart mitochondria. Respiration studies demonstrate a marked stimulation of oxygen consumption by caltrin in filipin-treated spermatozoa and rat liver mitochondria. A biphasic effect of caltrin on rat liver mitochondrial respiration was noted, with stimulation at low caltrin concentrations and inhibition as the concentration of caltrin is increased. The ability of caltrin to uncouple and/or inhibit respiration in filipin-treated spermatozoa and isolated liver mitochondria indicates that inhibition of mitochondrial calcium accumulation by caltrin results from one of these mechanisms. Only a marginal effect of caltrin on respiration of intact spermatozoa was observed; indicating that the plasma membrane is impermeable to this protein. The differential effect of caltrin on respiration of intact and permeabilized spermatozoa indicates that caltrin inhibition of Ca2+ uptake into spermatozoa in vivo occurs at the level of the plasma membrane.

Glutathione peroxidase and iron-thiol dependent lipid peroxidation.

Role of glutathione peroxidase in iron-thiol-mediated lipid peroxidation was examined. The enzyme was unable to prevent peroxidation of extracted rat liver microsomal lipids. In contrast, when arachidonic acid was the substrate, glutathione peroxidase did decrease the formation of thiobarbituric acid-reactive material. Superoxide dismutase produced a consistent but partial inhibition of peroxidation and catalase was without effect. Our results suggest that iron-thiol-dependent lipid peroxidation cannot be completely blocked by protective enzymes that are effective in other systems.