Creatine kinase isoenzyme variants in human serum

In serum from about 800 patients, total creatine kinase and its subunit B activities were determined by the recommended Scandinavian creatine kinase method in the absence and presence of a creatine kinase M subunit inhibitory antibody. Eight patients had supranormal subunit B activities, but normal or near-normal values for total creatine kinase activity. Electrophoresis of sera from these eight patients showed, in addition to the normally migrating isoenzyme MM, one or two abnormally migrating creatine kinase isoenzyme bands, located between normally migrating isoenzymes MM and MB. Experimental data suggest that these abnormal bands may be isoenzyme BB with changed electrophoretic mobility. The eight patients had no particular disorder in common.     

Creatine kinase isoenzyme--antibody reactions in immuno-inhibition and immunonephelometry

I have raised, in rabbits, antibodies against MM and BB isoenzymes of creatine kinase. The antibodies produced were homogeneous by Ouchterlony double immunodiffusion and did not cross react with their opposite antigens. Both antisera, however, appeared to be mixtures of antibodies, displaying different equivalences for activation, inactivation, and, possibly, precipitation. Inactivation studies indicated the presence of antibodies effective against dimer only and antibodies effective against monomer or dimer. Both antisera cross reacted with MB and displayed antibodies that appeared to block only half of the activity as well as antibodies that blocked all of the activity. The antisera produced were useful for measuring MB by both immuno-inhibition and immunonephelometry, but neither appears to be advantageous over current electrophoresis or ion-exchange methods. A comparison of decay of MB in patients between activity and mass measurements indicated that activity decay is about 12-fold faster than mass decay.     

Anion-exchange chromatography of erythrocytic and muscle adenylate kinase and its effect on the serum creatine kinase isoenzyme assays.

We determined the elution profile of erythrocytic and muscle adenylate kinases (EC 2.7.4.3) in the Roche chromatographic creatine kinase procedure and studied the interference these enzymes would cause in the isolation and assay of serum creatine kinase (EC 2.7.3.2) isoenzymes. Both adenylate kinases co-elute with the creatine kinase MM fraction and do not interfere with the isolation or assay of the MB fraction.     

Macro creatine kinase BB in serum, and some data on its prevalence.

We report the case of a patient with persistently above-normal activity of creatine kinase (CK) in serum, a major fraction of which on electrophoresis moved as a band between the MM and MB isoenzymes and on anion-exchange column chromatography eluted in the MB fraction. Measurements in the presence of specific M or B subunit-inhibitory antibodies indicated that 93% of the activity consisted of B-isomers. From these experiments we conclude that the abnormal CK is of BB nature. Gel filtration and immunoglobulin precipitation showed that the CK-BB was complexed with IgG. Normal CK-BB, when mixed with the patient's serum, was converted to macro CK-BB. In vitro stability of 37 degrees C of the abnormal enzyme was much greater than that of normal BB and MM isoenzymes. Following this finding, we then assessed 310 sera, received for enzyme assay by the clinical laboratory, for electrophoretically abnormally migrating CK isoenzymes. Of these, five (1.6%) contained such enzymes, all being of BB nature. They were of increased molecular mass, and at least three of them were complexed with IgG.     

The origin of the elevated activities of creatine kinase and other enzymes in the sera of patients with myxoedema.

An attempt has been made to establish the origin of the elevated serum creatine kinase which occurs in most patients with myxoedema. Parallel determinations of a number of other serum enzymes were made but the incidence of elevated values was appreciably less than in the case of creatine kinase. Rather surprisingly, the serum amylase activity was found to be increased in more than 50% of the patients studied. Creatine kinase isoenzymes were separated by starch-gel electrophoresis of the sera of 26 patients with myxoedema. In 25 the MM isoenzyme only could be identified while the remaining serum also contained a trace of the MB fraction. Similar isoenzyme studies were made with the sera of normal and thyroidectomized rats, all of which are shown to contain all three isoenzymes. (MM, MB and BB) irrespective of thyroid functional status. No consistent difference was apparent between the patterns exhibited by the thyroidectomized and control groups, and it was concluded that thyroidectomized rats cannot be regarded as a suitable experimental model for the study of this aspect of human hypothyroidism. It is suggested that enzyme release in myxoedema is a non-specific effect, possibly die to diminution in the ATP content of tissues generally. The greater incidence of creatine kinase elevation is probably due to the relatively high concentrations of this enzyme in skeletal muscle, the mass of which is much greater than that of any other tissue.     

Human placenta as a convenient source of creatine kinase BB

We demonstrate that human placenta is a convenient source of creatine kinase isoenzyme BB. We compare the physicochemical and catalytic properties with those of other creatine kinase isoenzymes: purified human abdominal muscle MM and brain BB. We also describe a stabilizing medium for creatine kinase BB. Human placental and brain BB have similar catalytic properties, the respective Km values for creatine phosphate being 0.66 and 0.56 mmol/L and for adenosine diphosphate 89 and 70 nmol/L.     

Creatine kinase in serum: 4. Differences in substrate affinity among the isoenzymes

The goal of this work was to find out whether it is possible to measure all three creatine kinase isoenzymes under the same reaction conditions in spite of their different kinetic properties. We found the tightest substrate binding for purified human BB, followed by the MB And MM isoenzyme preparations for both creatine phosphate and ADP. An increase in substrate concentration usually resulted in an inhibition. Nevertheless, it was possible with a method optimized for the MM isoenzyme also to measure the BB and MB isoenzymes at a rate of inhibition of only 6 and 3%, respectively. Marked differences in the apparent Km values between purified and native MM isoenzyme in human serum may indicate that the enzyme declined in substrate affinity during the isolation procedure. The use of enzyme preparations for standardization purposes, therefore, is only suitable if their kinetic properties are close to those of the enzyme in serum. Difficulties in the calculation of the apparent Km values are discussed and the graphical procedures of Lineweaver and Burk and of Eisenthal and Cornish-Bowden compared.     

A "column-batch" method for separating MB and LD1 in a single fraction

In this "column-batch" method for separating the MB and BB isoenzymes of creatine kinase and the LD1 isoenzyme of lactate dehydrogenase, one can, alternatively, separate MB from BB or obtain a combined fraction containing MB, BB, and LD1. The principal advantage is that the resulting fractions are twofold as concentrated as was the applied sample. Thus, activity can be measured by conventional automated methods, with no need for the modifications to compensate for diluted fractions that are required by other ion-exchange methods. Another advantage is the total absence of interference by the MM isoenzyme. A strong anion exchanger (AG-MP1, Bio-Rad) is used in the acetate form at pH 6.3. There is no retention of MM; retained MB, BB, and LD1 are eluted with a solution of magnesium acetate. Results are compared with those obtained for subunit B and LD1 by immunoinhibition. Results with patients are considered consistent with myocardial infarction if MB exceeds 20 U/L and 3% of the total CK and LD1 exceeds 130 U/L or 28% of the total LD activity.     

Development and clinical evaluation of a microcentrifugal analyzer method for determining creatine kinase MB isoenzyme

We have adapted to a microcentrifugal analyzer an immunoinhibition assay for measuring the activity of creatine kinase MB by using an inhibitory antibody for the M monomer. The method actually measures half the MB activity, but results are not multiplied by two because atypical isoenzymes of creatine kinase, including BB, IgG-BB, and the isoenzyme derived from mitochondria, are also detected, if they are present. Results correlated well with an electrophoresis method for 36 serum samples. Myocardial infarction was assessed in 175 patients admitted to our coronary-care unit, with respect to sensitivity (100%) and specificity (98%) when a decision point of 100 U/L (30 degrees C) was chosen for total creatine kinase activity (dithiothreitol-activated) and 6 U/L (30 degrees C) for the isoenzyme (by immunoinhibition). Atypical isoenzymes are easily recognized and confirmed by electrophoresis when the MB activity (by immunoinhibition) exceeds 6 U/L and 20% of the total creatine kinase activity.     

Separation of CK isoenzymes on DEAE-sephadex A-50 at neutral pH

The MM, MB and BB isoenzymes of human creatine kinase (CK) were separated by elution from micro-columns of DEAE-Sephadex A-50 with Tris buffer containing increasing concentrations of NaCl at pH 7.0, instead of pH 8.0 as has commonly been used. Since pH 7.0 is close to the pH optimum of CK, this allowed the use of four times larger aliquots of the eluates for the estimation of CK activity and, consequently, a 4-fold increase in sensitivity. Using serum specimens from patients with acute myocardial infarction, there was a good correlation of the CK-MM (r = 0.99) and CK-MB (r = 0.93) activities obtained with the two buffer systems. Similarly, normal sera had CK-MB and CK-BB activities of less than 2 U/l with both buffer systems. Comparison of the composition of serum proteins in the eluates by conventional electrophoresis revealed that although the distribution of CK isoenzymes separated by the two buffer systems was similar, the distribution of proteins at pH 7.0 showed an appreciable shift of protein from the MB to the MM eluates.     

Characterization of an atypical creatine kinase from human heart tissue,with properties similar to those of mitochondrial creatine kinase

The 600 × g paniculate fraction, obtained from the homogenates of human heart muscle, contained large quantities of an atypical creatine kinase (CK-Z). Creatine kinase Z migrated cathodically relative to CK-MM on agarose gel electrophoresis, and was not inhibited by antibodies directed against human CK-MM and CK-BB. Creatine kinase Z had an apparent K_m for Mg-ADP and creatine phosphate of 0.04 mmol/1 and 1.3 mmol/1, respectively. This enzyme existed in two molecular forms; one form of molecular weight 33000–38000 in the presence of a buffer containing Tris-HCl (0.05 mol/1), EDTA (0.001 mol/1), and 2-mercaptoethanol (0.010 mol/1), pH 8.0; and another form having a molecular weight of 62000–68000 in the presence of a buffer containing sodium phosphate (0.020 mol/1) and EDTA (0.001 mol/1), pH 8.0.Creatine kinase Z had biochemical properties which were different from those of the other soluble creatine kinase isoenzymes (MM, MB and BB), but similar to those reported for mitochondrial creatine kinases isolated from other animal tissues.     

Unmasking artifactual increases in creatine kinase isoenzymes in patients with renal failure

Previous reports have suggested that creatine kinase isoenzymes are elevated in patients with chronic renal failure and thus are less useful in the evaluation of chest pain in such patients. Our data in 88 patients with chronic renal failure receiving maintenance dialysis confirm this observation for total plasma creatine kinase. However, elevations in MB and BB creatine kinase, although statistically significant, were biologically unimpressive (5.9 +/- 0.05 [SEM] IU/L compared with 4.8 +/- 0.04 IU/L for MB creatine kinase [p less than 0.02], and 5.5 +/- 0.08 ng/ml compared with 3.2 +/- 0.05 ng/ml for BB creatine kinase [p less than 0.0002] ), and were unlikely to cause diagnostic confusion. In 92% of patients with chronic renal failure, plasma MB creatine kinase activity was within the normal range (less than 13 IU/L). Eight percent of patients manifested abnormal MB creatine kinase values; the highest was 20 IU/L. The glass bead method for measuring MB creatine kinase was used to avoid the potential confusion induced by non-creatine kinase-mediated fluorescence, which occurs in the region of MB and BB creatine kinase on electrophoresis. The infrequent and modest increases in plasma MB creatine kinase observed in patients with chronic renal failure should be appreciated, but it should not cause diagnostic confusion, because acute myocardial infarction usually results in more substantial elevations of MB creatine kinase.     

Stability and electrophoretic characteristics of creatine kinase BB extracted from human brain and intestine

Creatine kinase (CK; EC 2.7.3.2) isoenzyme BB extracted from brains of rats reportedly undergoes modification at 37 degrees C, leaving an electrophoretic variant that accounts for most of the residual CK activity. This variant, called CK-BB', migrates on electrophoresis similarly to creatine kinase isoenzyme MB. Using electrophoresis and immunoinhibition with antiserum to creatine kinase isoenzyme MM, we found CK-BB to be the only identifiable cytoplasmic isoenzyme in surgical samples from human brain and intestine. In contrast, we found that some samples of brain obtained at autopsy contain CK-BB'. We also found that CK-BB extracted from human brain was converted to CK-BB' upon incubation in serum or plasma at 37 degrees C. We found a similar development of CK-BB' in incubation mixtures of serum or plasma containing CK-BB obtained from surgical samples of human intestine. The development of CK-BB' during infarction of the gastrointestinal system may thus be a source of false-positive CK-MB in the laboratory verification of myocardial infarction when electrophoresis is used as the only method to identify CK isoenzymes.     

Preparation and stability of a liquid creatine kinase isoenzyme control from rabbit serum.

The MB isoenzyme of creatine kinase (CK) may be prepared in vitro from rabbit serum containing only the MM and BB isoenzymes, by means of a hybridization technique. The MM and BB dimers dissociate in 4 mol/L urea, which allows random recombination of M and B monomers. A liquid CK-isoenzyme control can be made from mixtures of rabbit sera obtained after hybridization and stabilized with glycerol and 25 mmol of 2-mercaptoethanol per liter. A liquid control stored at 4 degrees C showed good stability over a three-month period, declining to a mean residual activity of CK of approximately 90% after three weeks and a mean residual activity of MM, MB, and BB of 80--85% after six weeks. At 25 degrees C, CK activity of the liquid control declined to 75--80% after the fourth week. CK-BB at 25 degrees C was the least stable isoenzyme, declining to 75% after the third week and reaching 60% of activity after 12 weeks. CK-MB and CK-MM showed approximately 10--15% less stability at 25 degrees C than at 4 degrees C.     

Sensitive assay of creatine kinase isoenzymes in human serum using M subunit inhibiting antibody and firefly luciferase

A sensitive method for the assay of B subunit and total creatine kinase activity is described. The ATP formation in the creatine kinase reaction is continuously monitored by measuring the bioluminescence obtained with a purified firefly luciferase reagent. The B subunit activity is determined using an M subunit inhibiting antibody resulting in greater than 99.5% and approximately 50% inhibition of MM and MB isoenzymes, respectively. The bioluminescent method correlated well with a similar spectrophotometric method in the assay of B subunit as well as total creatine kinase activity (r greater than or equal to 0.98). However, the bioluminescent assay is considerably more sensitive, allowing the assay of B subunit activity in serum from healthy individuals. This is due to the inherent sensitivity of the bioluminescent assay of ATP, a reduced analytical interference from adenylate kinase and a reduced reagent blank. The within-series precision at 1 U/liter and greater than 52 U/liter corresponded to a C.V. of 14% and 3%, respectively. The method is as rapid and suitable for routine work as spectrophotometric methods. From a clinical point of view the new method is of particular interest in the early diagnosis of small acute myocardial infarctions.     

Atypical increase in serum creatine kinase activity in hospital patients.

We use an ion-exchange column-chromatographic technique for separating creatine kinase isoenzymes in serum, and occasionally observe what appears to be sustained increase in the MB fraction. Most patients whose sera show such behavior have myocardial disease, but not necessarily a recent myocardial infarction. Electrophoretic analysis of a small sampling of such sera revealed that the apparent MB migrates atypically, appearing distinctly between isoezymes MB and MM. In another electrophoretic system, the peak might easily be mistaken for MM. This unusual isoenzyme does not appear to be "macro" creatine kinase. In laboratories that use the ion-exchange technique, the possibility of a falsely positive MB value should be considered in subjects who show persistent increases together with normal or nearly normal values for total creatine kinase activity. A suitable electrophoretic method that clearly demonstrates this unusual isoenzyme should be used in such cases, for confirmation.     

New manual and automated method for determining activity of creatine kinase isoenzyme MB, by use of dithiothreitol: clinical applications.

The method is based on the selective activating capacity of dithiothreitol on creatine kinase isoenzyme MB, after isoenzyme MM is activated by glutathione. Isolated isoenzymes MM and MB of human and canine origin were assayed individually and in mixtures of known activities. When glutathione was present in the assay medium the activity of each isoenzyme could be measured individually, but glutathione did not activate isoenzyme MB if it was present in a mixture with MM. Dithiothreitol, added to the serum before assay, activated the isoenzyme MB in the mixture. Values for MB activities obtained for isolated isoenzyme MB and for the isoenzyme mixture after dithiothreitol was added averaged 110 and 111 U/liter, respectively (r = 0.998; y = 1.007 x + 0.298; n = 10). In the serum of 40 patients with documented acute transmural myocardial infarction, the mean proportion of isoenzyme MB activity measured in this way was 5.5% (coefficient of variation, 7.7%). Isoenzyme MB activities measured by use of dithiothreitol compared well with those obtained by conventional electrophoresis/spectrophotometry (r = 0.998; y = 1.09x -0.65) and spectrofluorometry (r = 0.996; y = 1.10 x + 0.80). The assay of MB activity by the dithiothreitol method was automated, by use of an Abbott Bichromatic Analyser and a Calbiochem Super-Stat Pack Kit. In 60 isoenzyme MB determinations the manual and automated method correlated well (r = 0.990; y = 1.0x -1.36). The simplicity of isoenzyme MB determination by use of dithiothreitol and its ease of automation allow routine monitoring of the isoenzyme activity in patients with ischemic heart disease.     

Creatine kinase isoenzyme MB determination on the ACA: dependence on serum matrix and other effectors

Creatine kinase isoenzyme MB catalytic activities in human serum, determined by ACA ion exchange chromatography and immunoinhibition, differ significantly, the correlation coefficient being 0.88. The reasons for this variation are interference of antibodies with the creatine kinase B subunit in the immunoinhibition assay, nonreproducible elution of creatine kinase isoenzyme MB from the ion exchange resin in the ACA pack, due to varying protein concentrations in the serum samples and increasing elution of creatine kinase isoenzyme MM from the ion exchange column caused by a preceding partial inactivation of creatine kinase isoenzyme MM. Pretreatment of serum samples with a solution containing magnesium sulphate, maleate and 2-oxoglutarate (solution A) prior to determination of creatine kinase isoenzyme MB catalytic activities on the ACA significantly improves the sensitivity and specificity of the method; the correlation coefficient for the values from the ACA and immunoinhibition then becomes 0.92. Dilution of serum samples with bovine serum albumin solution is now practicable.     

Distribution of serum concentrations of creatine kinase MM and BB isoenzymes measured by radioimmunoassay.

Because of the recent interest in measuring serum enzyme concentration as opposed to catalytic activity, we measured the serum concentration of creatine kinase isoenzymes BB and MM by radioimmunoassay and the total creatine kinase enzymatic activity in healthy adults. For sex-race subgroups we report mean values and the 2.5, 5, 25, 50, 75, 90, 95 and 97.5 percentiles. Differences among average values of the subgroups were highly significant. Results within subgroups frequently departed from a gaussian distribution.     

Appearance of creatine kinase BB isoenzyme in the serum of a patient suffering from infarction of the colon.

A case is described of multiple pathologies which was associated with very high levels of total serum creatine kinase activity. Electrophoretic analysis showed the circulating enzyme to be made up of all three isoenzyme fractions; MM, MB and BB. Acute necrosis of a portion of large intestine seems the most likely explanation for the transient appearance of the BB fraction. The implications of these findings with regard to creatine kinase isoenzyme analysis techniques are discussed.