Comparative regional distribution of angiotensin-I-converting enzyme in the rat, rabbit, dog, monkey and human kidneys

Kidney is the main source of the production of renin and angiotensin, while also being one of their main target organs. This study was designed to determine the regional distribution of angiotensin-I-converting enzyme (ACE) in the kidney using a biochemical approach. Interspecies variations were analyzed in human, monkey, rabbit, dog and rat kidneys. Kidney ACE content differed among species with decreasing contents as follows: rabbit greater than human greater than monkey greater than dog greater than rat. In rabbit, human, monkey and dog kidneys, we observed predominant cortical distribution of ACE compared with the medulla or papilla; median cortex/papilla ACE activity ratio was 19, 14, 9 and 7 for the rabbit, human, dog and monkey, respectively. In rat kidney, ACE predominantly distributes in the outer medulla, while cortex ACE content appears to be low. The difference in ACE distribution in the rat kidney and to a lesser extent in the dog kidney when compared to rabbit, monkey or man should be taken into account when extrapolating to the human renal hemodynamic studies, which are frequently performed in rats or dogs.     

Effects of hypothermia on canine kidney mitochondria

The effect of hypothermia on the function of isolated dog kidney cortex mitochondria was determined with an FAD- and NAD⁺-linked substrate. In dog kidney mitochondria, temperatures of 10 °C or less suppress ADP stimulation of respiration but have little or no effect upon uncoupler, Ca²⁺ or valinomycin-K⁺ stimulation of respiration. This suggests that the adenine nucleotide translocase which catalyses the transport of ADP into the mitochondria limits the rate of respiration and generation of ATP at 10 °C in kidneys undergoing preservation. The coupling of oxidation to phosphylation, as determined by measuring the amount of ATP formed at low temperatures, indicates, however, that mitochondria are fully coupled at both 10 and 5 °C. The respiratory control index at 15 °C is greater (with pyruvate plus malate) than at 30 or 10 °C and suggests that 15 °C may be the optimum perfusion temperature for maintaining adenine nucleotide levels in the perfused kidney.     

Immunochemistry of prostaglandin endoperoxide-forming cyclooxygenases: The detection of the cyclooxygenases in rat, rabbit, and guinea pig kidneys by immunofluorescence

Rabbit antiserum has been prepared against the prostaglandin endoperoxide-forming cyclooxygenase (EC 1.14.99.1) purified from sheep vesicular glands. Ouchterlony doùble diffusion and immunoelectrophoretic analyses indicate that the anti-cyclooxygenase serum is monospecific for the enzyme. The anti-cyclooxygenase serum reacts with both active and inactivated forms of the sheep vesicular gland (SVG) cyclooxygenase. Furthermore, the immune serum precipitates solubilized microsomal cyclooxygenase from each of six other tissues examined, including bovine seminal vesicles, rabbit kidney medulla, guinea pig lung, dog spleen, sheep uterus, and human platelets.Anti-SVG cyclooxygenase serum was used in combination with fluoresence isothiocyanate (FITC)-labelled goat anti-rabbit IgG to detect cyclooxygenase in cryostat sections from rat, rabbit and guinea pig kidneys by immunofluorescence. Highly prominent fluorescence was associated only with the epithelial cells lining the collecting ducts in rabbit and guinea pig kidneys, and except for the nucleus, was uniformly distributed within the interior of these cells. In rat kidney, fluorescence was detected not only in collecting tubules but also in the interstitial cells of the renal papilla. Our results are consistent with the emerging hypothesis that PGE₂ produced intrarenally plays a physiological role in natriuresis.     

Effects of short-term hypothermic perfusion and cold storage on function of the isolated-perfused dog kidney

The isolated-perfused dog kidney was used as a model to measure the effects of short-term hypothermic preservation on renal function and metabolism. Kidneys were cold-stored in Collins' solution, hypotonic citrate, or phosphate-buffered sucrose for 4 and 24 hr, or were continuously perfused for 4 and 24 hr with a synthetic perfusate. Following preservation kidneys were perfused with an albumin-containing perfusate at 37 degrees C for 60 min for determination of renal function. The results indicate that many of the effects of short-term preservation on renal function in dog kidneys are similar to results reported for rat and rabbit kidneys. Cold storage for 4 hr resulted in a large decrease in GFR (57%), but only a small decrease in Na reabsorption (from 97 to 87%). Cold storage for 24 hr caused a further decline in renal function (GFR = 95% decrease, Na reabsorption = 49-64%). Results were similar for all cold storage solutions tested. Perfusion for 4 hr was less damaging to renal function than cold storage. The GFR decreased only 14% and urine formation and Na reabsorption were practically normal. After 24 hr of hypothermic perfusion, the GFR was reduced by 79%, urine flow was normal, and Na reabsorption was 78%. There were no obvious biochemical correlates (adenine nucleotides, tissue edema, or electrolyte concentration) with the loss of renal function during short-term preservation. The results suggest that the isolated-perfused dog kidney can be used to test the effects of preservation on renal function, and yields results similar to those obtained using small animal models.(ABSTRACT TRUNCATED AT 250 WORDS)     

Immunochemistry of prostaglandin endoperoxide-forming cyclooxygenases: the detection of the cyclooxygenases in rat, rabbit, and guinea pig kidneys by immunofluorescence.

Rabbit antiserum has been prepared against the prostaglandin endoperoxide-forming cyclooxygenase (EC 1.14.99.1) purified from sheep vesicular glands. Ouchterlony double diffusion and immunoelectrophoretic analyses indicate that the anti-cyclooxygenase serum is monospecific for the enzyme. The anti-cyclooxygenase serum reacts with both active and inactivated forms of the sheep vesicular gland (SVG) cyclooxygenase. Furthermore, the immune serum precipitates solubilized microsomal cyclooxygenases from each of six other tissues examined, including bovine seminal vesicle, rabbit kidney medulla, guinea pig lung, dog spleen, sheep uterus, and human platelets. Anti-SVG cyclooxygenase serum was used in combination with fluorescein isothiocyanate )FITC)-labeled goat anti-rabbit IgG to detect cyclooxygenases in cryostat sections from rat, rabbit and guinea pig kidneys by immunofluorescence. Highly prominent fluorescence was associated only with the epithelial cells lining the collecting ducts in rabbit and guinea pig kidneys, and except for the nucleus, was uniformly distributed within the interior of these cells. In rat kidney, fluorescence was detected not only in collecting tubules but also in the interstitial cells of the renal papilla. Our results are consistent with the emerging hypothesis that PGE2 produced intrarenally plays a physiological role in natriuresis.     

Temperature response of oxygen uptake in brain mitochondria from normal and ischemic rats

Mitochondria isolated from rat brains following 30 min of complete (decapitation) ischemia showed a 3-fold increase in free fatty acid content, but no significant decreases in the total fatty acid or phospholipid content.This free fatty acid increase was associated with an altered mitochondrial function: a 50% inhibition of state 3 (+ ADP) respiration and a decrease in the respiratory control ratio from 5.5 to 3 to 24°C. The P:O ratio remained unchanged at 3, and there was no increase in stage 4 respiration. When glutamate and malate supported respiration was determined as a function of temperature in control mitochondria, the resulting Arrhenius plot of the state 3 respiration was biphasic with a transition temperature around 30°C, while ischemic mitochondria exhibited a linear Arrhenius plot with energy of activation (approximately 10 kcal/mol) similar to that of control mitochondria below the transition temperature.The difference in temperature response between control and ischemic mitochondria reflects a change in mitochondrial lipid composition, and is therefore a functional manifestation of the altered cerebral lipid composition commonly observed during ischemia.     

Temperature dependence of solute transport and enzyme activities in hog renal brush border membrane vesicles

The temperature dependence of sodium-dependent and sodium-independent d-glucose and phosphate uptake by renal brush border membrane vesicles has been studied under tracer exchange conditions. For sodium-dependent d-glucose and phosphate uptake, discontinuities in the Arrhenius plot were observed. The apparent activation energy for both processes increased at least 4-fold with decreasing temperature. The most striking change in the slope of the Arrhenius plot occurred between 12 and 15°C. The sodium-independent uptake of d-glucose and phosphate showed a linear Arrhenius plot over the temperature range tested (35–5°C). The behavior of the transport processes was compared to the temperature dependence of typical brush border membrane enzymes. Alkaline phosphatase as intrinsic membrane protein showed a nonlinear Arrhenius plot with a transition temperature at 12.4°C. Aminopeptidase M, an extrinsic membrane protein exhibited a linear Arrhenius plot. These data indicate that the sodium-glucose and sodium-phosphate cotransport systems are intrinsic brush border membrane proteins, and that a change in membrane organization alters the activity of a variety of intrinsic membrane proteins simultaneously.     

Ascorbic acid-Fe2+ treatment mimics effect of vitamin E deficiency on sarcoplasmic Ca-ATPase of rabbit muscle

After 90 min treatment with ascorbic acid and FeSO4 at 4 degrees C, the activity of rabbit sarcoplasmic reticulum Ca-ATPase was reduced to 22% and the Arrhenius plot of enzyme activity showed an absence of a discontinuity. The presence of vitamin E restored enzyme activity (60%) and the discontinuity in the Arrhenius plot. Ca-ATPase reconstituted with delipidated protein from ascorbic acid-Fe-treated preparation and normal lipid exhibited properties similar to the intact treated enzyme, whereas that reconstituted with delipidated normal protein and lipid from treated preparation exhibited reduced activity but retained the Arrhenius discontinuity. These properties are similar to those observed for sarcoplasmic reticulum Ca-ATPase from the vitamin E-deficient muscular dystrophic rabbit.     

Species comparison of renal proteolytic activity for human myelin basic protein peptide 43-88

1. A species comparison was conducted on the proteolytic activity in human, dog, rabbit, guinea-pig and rat kidney which can degrade human myelin basic protein peptide 43-88. 2. In rat kidney the degrading activity occurred over a pH range of 4-11.5 with the greatest activities at pH 5 and 9. The peptide degrading activity in human, dog, rabbit and guinea-pig kidney was considerably less than in the rat and occurred predominantly at pH 7 with lesser activity at pH 9. 3. The effects of inhibitors of proteolytic enzymes indicated that the peptide degrading activities at the same two pH's of dog, rabbit and guinea-pig were similar to one another but differed from that of human. 4. These results indicate that the activity for degrading a potential autoantigenic material is widespread in renal tissue among different species and that different enzymes are involved. More generally, these findings suggest that renal proteinases differ among commonly used laboratory animals and also differ from the human enzymes.     

Comparison of sarcoplasmic reticulum Ca2+-adenosine triphosphatase from vitamin E-deficient dystrophic rabbit skeletal muscle with iron-ascorbate-treated and untreated enzyme

Sarcoplasmic reticulum Ca2+-ATPase from rabbit skeletal muscle has an Arrhenius curve of enzyme activity with a discontinuity at about 20 degrees C. Preparations treated with FeSO4 and ascorbic acid and from a vitamin E-deficient dystrophic rabbit have 22% of the normal activity and a linear Arrhenius curve (Promkhatkaew, D., Komaratat, P., & Wilairat, P. (1985) Biochem. Int. 10, 937-943). All three preparations were cross-linked to the same extent by dimethyl suberimidate and copper-phenanthroline reagent at temperatures above and below the temperature of the Arrhenius discontinuity. Both iron-ascorbate-treated Ca2+-ATPase and that from a vitamin E-deficient animal had 50% of the normal sulfhydryl content, but the disulfide and free amino contents were unaltered. These observations suggest that loss of sulfhydryl groups through lipid peroxidation, both in vivo and in vitro, resulted in reduction of Ca2+-ATPase activity and loss of the break in the Arrhenius plot. Changes in Ca2+-ATPase polypeptide aggregational state could not account for the discontinuity in the Arrhenius curve as revealed by the similar extent of cross-linking of the three enzyme preparations at temperatures above and below the temperature of the Arrhenius discontinuity.     

A temperature-dependent structural change of mitochondrial ATPase

The temperature dependence of the intrinsic tryptophan fluorescence in either bovine heart submitochondrial particles or oligomycin-sensitive ATPase isolated therefrom shows a discontinuity at near 25°C, which coincides with the temperature where a break in the Arrhenius plot of ATPase activity is found. Addition of n-butanol to submitochondrial particles induces a decrease of tryptophan fluorescence in the whole temperature range. The discontinuity is interpreted as a temperature-dependent structural change and related to a viscosity-induced phase separation of the intrinsic mitochondrial proteins.     

Hormones and liver mitochondria: Influence of growth hormone,thyroxine, testosterone,and insulin on thermotropic effects of respiration and fatty acid composition of membranes

The effects of hypophysectomy and subsequent administration of growth hormone, thyroxine, insulin, and testosterone were examined in rat liver for the relationship between the thermotropic effects on State 3 respiration (ADP induced) and fatty acid composition of the phospholipid fraction of intact mitochondria as well as of inner membrane vesicles. The Arrhenius profile for energy-linked (succinate) State 3 respiration of mitochondria from hypophysectomized rats lacked the discontinuity at 23.5 °C seen with mitochondria from normal rats. After injections of the hormones the discontinuity representing the transition temperature from gel to liquid crystalline state of lipids occurred at different temperatures: 18.5 °C for growth hormone, 26.0 °C for thyroxine, 19.5 °C for growth hormone + thyroxine, 27.6 °C for insulin, and 25.3 °C for testosterone. The energy of activation between 37.5 and 23.5 °C was 1.9 times greater for hypophysectomy than for controls. Growth hormone was the most effective in restoring the energy of activation to normal, above as well as below transition temperature. The effect of thyroxine appears to be due to a larger stimulation of the State 4 respiration than that of growth hormone, insulin, or testosterone, especially at higher temperatures. Phospholipids extracted from intact mitochondria or inner membrane vesicles of hypophysectomized rats contained less arachidonic acid (20:4) and more linoleic acid (18:2) than those of normal rats. In addition, the contents of some of the minor fatty acids were also changed. Calculated unsaturation index showed an 18.8 and 14.9% depletion in unsaturation in whole mitochondria and inner membranes, respectively. Among the different hormones used to treat the hypophysectomized rats, growth hormone was the most effective in restoring the transition temperature and fatty acid composition to normal levels and increasing the gain in body weight. Although the other hormones increased total unsaturation index to some extent, some of the individual fatty acids were affected differently. Good correlation exists between the unsaturation index of mitochondrial fatty acids and transition temperature of State 3 respiration. These results strongly suggest a role for the hormones, particularly growth hormone, in the control of mitochondrial membrane fluidity of hypophysectomized rat liver, through fatty acid composition of phospholipids.     

The renal cortical lymphatic system in the rat, hamster, and rabbit

Rat, hamster, and rabbit renal cortical lymphatics were examined by light and electron microscopy. Rat and hamster kidneys possessed both intra- and interlobular lymphatics that were structurally similar at the light microscopic level. Ultrastructural examination of the hamster lymphatic endothelium, however, revealed an unusual arrangement of cytoplasmic extensions not seen in the other two species. The intralobular lymphatics were related primarily to tubules, afferent arterioles, and renal corpuscles and were consistent with lymph formation from both plasma filtrate and tubular reabsorbate. Interlobular lymphatics were seen in connective tissue associated with the interlobular blood vessels. Rabbit cortex contained only interlobular lymphatics. Cross-sectional area, maximum diameter, volume density, and profile density were determined by stereological measurements using a computer-based image analyzer. The morphological data from the rat were used, in combination with published values for lymph flow, to calculate the rate of lymph formation per unit area of endothelium in lymphatics of the renal cortex. Among kidneys fixed by retrograde perfusion, the cortical lymphatic system was most extensive in maximum diameter, volume density, and profile density. It was smallest in the rabbit and intermediate in the rat. Lower volume and profile density were found for rat kidneys fixed by the dripping technique. It was concluded that: tubular reabsorbate probably contributes to renal lymph in the rat and hamster, but not in the rabbit; significant differences exist in the extent of the renal lymphatic systems among the three species, with the hamster kidney having the richest network and the rabbit the poorest; the method of fixation influences the measured size and density of renal cortical lymphatics; and the estimated rate of lymph formation in the kidney of the rat is roughly comparable to that in the dog.     

Lipid peroxidation as a major factor in the modification of the catalytic function of Ca-ATPase of the sarcoplasmic reticulum in hypercholesterolemia

A comparative study of the effect of an experimental hypercholesterolemia and in vitro induced lipid peroxidation (LPO) on the temperature dependence of the activity of sarcoplasmic reticular Ca-ATPase from rabbit skeletal muscle (SR) has been performed. A control Arrhenius plot of ATPase activity determined in the presence of alamethicin was characterized by discontinuity in the 20 degrees C area. Both in vitro induced LPO and hypercholesterolemia resulted in a shift of discontinuity to 30 degrees C area. The replacement of lipid Ca-ATPase membrane environment by egg yolk lecithin did not affect the temperature dependence of the activity in control SR and failed to restore the original nature of the Arrhenius plot for Ca-ATPase modified by hypercholesterolemia or the in vitro induced LPO.     

gamma-Butyrobetaine hydroxylation to carnitine in mammalian kidney.

Activity of γ-butyrobetaine hydroxylase (γ-butyrobetaine, 2-oxoglutarate dioxygenase; EC 1.14.11.1) in liver and kidney of several mammalian species was assayed by measurement of tritium release from γ-[2,3-³H]butyrobetaine. Crude extracts from cat, hamster, rabbit, and Rhesus monkey kidneys effectively converted γ-butyrobetaine to carnitine. In these species, the levels of hydroxylating activity in kidney exceeded or nearly equaled the level of γ-butyrobetaine hydroxylase activity in the corresponding liver. In contrast, dog, guinea pig, mouse, and rat kidney exhibited no or insignificant capacity to hydroxylate γ-butyrobetaine. The notion that the liver is the exclusive or primary site of carnitine synthesis must be reconsidered at least for some mammalian species.     

Temperature dependence of the photosynthetic activities in the thylakoid membranes from the blue-green alga Anacystis nidulans

The photosynthetic electron transport and phosphorylation reactions were measured in the room temperature region in the thylakoid membranes prepared from the blue-green alga, Anacystis nidulans. The Arrhenius plot of the Hill reaction with 2,6-dichlorophenolindophenol showed a distinct break of straight lines at 21°C in the membranes from cells grown at 38°C, and at 12°C in those from cells grown at 28°C. The Arrhenius plot of the Hill reaction with ferricyanide showed a break at 13°C in the membranes from cells grown at 38°C, and at 7°C in those from cells grown at 28°C. On the other hand, the Arrhenius plot of the System I reaction with methylviologen as an electron acceptor and 2,6-dichlorophenolindophenol and ascorbate as an electron donor system was composed of a straight line in the membranes from cells grown at 28°C as well as at 38°C. The Arrhenius plot of the System II reaction measured by the ferricyanide reduction mediated by silicotungstate in the presence of 3-(3′,4′-dichlorophenyl)-1,1-dimethylurea also showed a break at 11°C in the membranes from cells grown at 38°C.The Arrhenius plot of the phosphorylation mediated by N-methylphenazonium methylsulfate showed a break at 21°C in the membranes from cells grown at 38°C and at 12°C in those from cells grown at 28°C. The Arrhenius plot of the phosphorylation mediated by the System I reaction showed a break at 24°C in the membranes from cells grown at 38°C.The characteristic features in the Arrhenius plots of the photosynthetic electron transport and phosphorylation reactions are discussed in terms of the transition of physical phase of the thylakoid membrane lipids.     

Alterations in phospholipid-dependent (Na++K+)-ATPase activity due to lipid fluidity: Effects of cholesterol and Mg2+

The (Na⁺+K⁺)-activated, Mg²⁺-dependent ATPase from rabbit kidney outer medulla was prepared in a partially inactivated, soluble from depleted of endogenous phospholipids, using deoxycholate. This preparation was reactivated 10 to 50-fold by sonicated liposomes of phosphatidylserine, but not by non-sonicated phosphatidylserine liposomes or sonicated phosphatidylcholine liposomes. The reconstituted enzyme resembled native membrane preparations of (Na⁺+K⁺)-ATPase in its pH optimum being around 7.0 showing optimal activity at Mg²⁺: ATP mol ratios of approximately 1 and a K_m value for ATP of 0.4 mM.Arrhenius plots of this reactivated activity at a constant pH of 7.0 and an Mg²⁺: ATP mol ratio of 1:1 showed a discontinuity (sharp change of slope) at 17 °C, With activation energy (E_a) values of 13–15 kcal/mol above this temperature and 30–35 kcal below it. A further discontinuity was also found at 8.0 °C and the E_a below this was very high (> 100 kcal/mol).Incresed Mg²⁺ concentrations at Mg²⁺: ATP ratios in excess of 1:1 inhibited the (Na⁺+K⁺)-ATPase activity and also abolished the discontinuities in the Arrhenius plots.The addition of cholesterol to phosphatidylserine at a 1:1 mol ratio partially inhibited (Na⁺+K⁺)-ATPase reactivation. Arrhenius plots under these conditions showed a single discontinuity at 20°C and E_a values of 22 and 68kcal/mol above and below this temperature respectively. The ouabain-insensitive Mg²⁺-ATPase normally showed a linear Arrhenius plot with an E_a of 8 kcal/mol. The cholesterol-phosphatidylserine mixed liposomes stimulated the Mg²⁺-ATPase activity, which now also showed a discontinuity at 20 °C with, however, an increased value of 14 kcal/mol above this temperature and 6 kcal/mol below. Kinetic studies showed that cholesterol had no significant effect on the K_m for ATP.Since both of cholesterol and Mg²⁺ are know to alter the effects of temperature on the fluidity of phospholipids the above result are discussed in this context.     

Comparison of the effects of adenine-ribose with adenosine for maintenance of ATP concentrations in 5-day hypothermically perfused dog kidneys

The quality of preservation of kidneys is dependent upon a number of factors, one of which may be the concentration of adenine nucleotides in the tissue during long-term perfusion preservation. In this study we have investigated how adenine (5 mM) and ribose (5 mM) in combination affect the concentration of adenine nucleotides in dog kidney cortical tissue after 5 days of continuous hypothermic perfusion preservation. These results were compared to kidneys perfused with adenosine and without any added purine precursors of adenine nucleotide synthesis. Additionally, we investigated how these conditions affected renal tissue slice function after 5 days of preservation and how adenine plus ribose affected renal function after autotransplantation in the dog. Adenosine is nearly completely degraded during 5 days of perfusion but there was little loss of adenine (10%). The adenosine triphosphate concentration in kidney cortical tissue was higher in adenine/ribose-perfused kidneys (1.41 +/- 0.19 mumol/g) than in adenosine-perfused kidneys (0.71 +/- 0.1 mumol/g) after 5 days of preservation. Tissue slices prepared from kidneys preserved in the presence of adenine plus ribose were metabolically more functional (slice volume control and electrolyte pump activity) than slices from adenosine-perfused kidneys. Adenine plus ribose had no detrimental effects on kidneys preserved for 3 days as tested in the autotransplant model but did not yield successful 5-day preservation. Because of some potentially detrimental factors in using adenosine as an adenine nucleotide synthesis precursor, we have now switched to the combination of adenine and ribose for perfusion preservation of kidneys both in the laboratory and in the clinic.     

Effects of hypothermic kidney preservation on the isolated perfused kidney: a comparison of reperfusion methods

Two isolated-perfused kidney methods were used to study the effects of hypothermic preservation on renal function in dog kidneys. The isolated-machine-perfused kidney (IMPK) used an in vitro perfusion technique--the perfusate was a Krebs-bicarbonate type delivered to the kidney at 37 degrees C by a mechanical pump at a constant pressure (100 mm Hg). The isolated-blood-perfused kidney (IBPK) utilized transplantation of the preserved kidney to the femoral vasculature. Renal function (urine analysis) was determined over a 1-hr reperfusion interval and included GFR (creatinine clearance), urine formation, and Na+ reabsorption. Kidneys preserved for only 24 hr by cold storage in either Collins'--C3 solution or in hypotonic citrate and kidneys hypothermically perfused for 24 hr demonstrated greater retention of renal function when reperfused by blood (IBPK) than with the in vitro perfusate (IMPK). The GFR was reduced by 38-58% when tested with the IBPK, but by 80-90% when tested with the IMPK. Na+ reabsorption was normal (97%) with blood reperfusion but was reduced to 36-50% in cold-stored kidneys and 82% in hypothermically perfused kidneys determined by machine reperfusion (IMPK). However, kidneys perfused for 72 hr demonstrated more similar renal functions when tested by either IMPK or IBPK. GFR was reduced to 20% (IBPK) and 11% (IMPK) and Na+ reabsorption averaged 76-85% (IBPK or IMPK). These results suggest that either reperfusion method is suitable for determining the effects of renal preservation on kidney function in kidneys preserved for 72 hr but, for short-term preserved kidneys (24 hr), the IBPK model may be preferred.     

Altered property of sarcoplasmic Ca-ATPase from vitamin E-deficient dystrophic rabbit is associated with the protein and not the lipid component

The effects of temperature on reconstituted sarcoplasmic Ca-ATPase preparations from vitamin E-deficient dystrophic and control rabbits were studied. Delipidated Ca-ATPase from vitamin E-deficient sarcoplasmic reticulum (SR) reconstituted with lipid of control SR exhibited properties similar to preparations reconstituted with lipid of vitamin E-deficient SR, namely low Ca-ATPase activity and a linear Arrhenius plot of enzyme activity. On the other hand, delipidated control SR Ca-ATPase reconstituted with lipid of vitamin E-deficient SR showed a reduction in activity but retained the discontinuity in the Arrhenius plot. These results indicated that the altered property of sarcoplasmic Ca-ATPase from vitamin E-deficient dystrophic rabbit was associated with the protein and not the lipid component.