Creatine kinase-inhibiting monoclonal antibodies: preparation and characterization of porcine MM isoenzyme-specific antibodies

Five monoclonal antibodies (CKM-B07, F12, D08, H09 and G01) against porcine creatine kinase (CK; EC 2.7.3.2) MM isoenzyme, which inhibit the enzymatic activity, were prepared. The hybridomas which produced monoclonal antibodies were screened by direct measurement of the inhibitory activity of their culture supernatant. Only two of them, however, were found to be measurable by an enzyme-linked immunosorbent assay with porcine CK-MM as an antigen. CKM-G01 inhibited 100% porcine CK-MM activity, while the others, 73-87%. On the other hand, only CKM-H09 inhibited porcine CK-BB activity (15%). CKM-F12 and D08 inhibited more than 50% CK-MB activity, whereas they did not inhibit CK-BB activity. The monoclonal antibodies were also tested for bovine, rabbit and human CK-MM. All the antibodies inhibited bovine and human CK-MM activity as well. In particular, CKM-G01 was found to exhibit more than 98% inhibition of all CK-MM activity tested, indicating that a common or very similar epitope which affects the activity is present on these enzymes. Admixing of CKM-B07 with other antibodies effected synergisms in inhibition, not only to porcine CK-MM activity but also to human CK-MM activity. A mixture of CK-B07 and G01 inhibited 100% human CK-MM activity, suggesting applicability of these monoclonal antibodies to clinical laboratory diagnosis.     

Diagnostic use of CK-MM and CK-MB isoforms for detecting myocardial infarction

Following acute myocardial infarction, total CK and CK-MB levels begin to rise 5 to 6 hours after the onset of chest pain. The serial profile of the rise and fall of both activities is nearly always indicative of AMI. The recent increase in the use of thrombolytic agents in an attempt to attain reperfusion of occluded coronary arteries alters the enzyme profiles observed in blood after AMI. After successful reperfusion a washout phenomenon occurs in which early restoration of blood flow to damaged myocardium causes an early rise in total CK and MB levels above the normal range 2 to 4 hours after AMI, with earlier and higher peak enzyme values. Recently reports have appeared describing numerous serum and plasma CK-MM and CK-MB isoform patterns after AMI. Following release from injured myocardium CK-MM3 and CK-MB2 (designated the tissue isoforms) are converted in the circulation to post-translation products (MM2, MM1, MB1, respectively). Studies have now shown that CK-MM isoform patterns provide a unique means of assessing the time of onset of necrosis and a monitor of the duration of enzyme release from the site of injury. Following AMI, MM3, the MM3/MM1 ratio, or both rises and peaks earlier than either total CK or CK-MB levels. During successful reperfusion, the rate of rise of CK-MM3 is more rapid and the MM3/MM1 ratio peaks earlier than without reperfusion. However, any concomitant release of CK-MM3 from skeletal muscle would decrease the clinical utility of MM isoforms in detecting myocardial damage. Recent advances in technology have shown that CK-MB2 rise parallels the CK-MM increase and also rises earlier than total CK and total MB levels and provides increased specificity for the myocardium. The full potential of the diagnostic utility of MM and MB isoforms will not be realized until a reliable, sensitive, simple, and rapid quantitative assay becomes available.     

Measurement of creatine kinase isoforms by agarose gel electrophoresis in the diagnosis of myocardial infarction.

To evaluate a method to quantitate the isoforms of serum creatine kinase isoenzyme MM (CK-MM) by agarose gel electrophoresis, sera of normal subjects (n = 74) and patients with acute myocardial infarction (n = 21) and other diseases (n = 67) were studied. The within-assay imprecision (CV) for CK-MM1, -MM2, and -MM3 was 1.9%, 0.8%, and 2.2% at the activity of 79, 105, and 64 U/L (30 degrees C, CK-NAC), respectively; while the assay-to-assay imprecision was 4.8%, 3.2% and 3.9%, respectively. The method could detect 5 U/L or more of any CK-MM isoform and was linear with respect to CK activity at values less than 1100 U/L. Sera from healthy subjects (n = 74) contained mainly CK-MM1 (mean = 48.5%), with lesser amounts of CK-MM2 (mean = 30.6%) and CK-MM3 (mean = 20.8%). The central 95-percentile reference range for the ratio of MM3/MM1 was 0.12-1.34 with mean = 0.49. The sensitivity of CK-MM3/MM1 ratio greater than 1.3 in the diagnosis of acute myocardial infarction employing the first available sample was 90% at a specificity of 91%, compared with a sensitivity of 81% and specificity of 87% for the conventional CK-MB assay. At CK-MM3/MM1 ratio of 1.6 or more, the specificity increased to 96% while sensitivity remained unchanged at 90%. This procedure for the quantitation of serum CK-MM isoforms is convenient, practical and suitable for inclusion in the routine panel of cardiac tests.     

Creatine kinase isoforms in ischemic heart disease

The MM and MB isoenzymes of creatine kinase exist in serum as a collection of at least three major MM and two major MB isoforms. Each of these are derived from single tissue MM and MB isoforms, which are converted to these other forms by carboxypeptidase N after their release from necrotic skeletal and myocardial tissue. Measurement of the MM isoforms in ischemic heart disease is useful for early diagnosis of acute myocardial infarction and for the noninvasive determination of coronary artery reperfusion for infarction patients receiving thrombolytic therapy. Because MM is also released in acute skeletal-muscle disease, MB isoform measurements may have the highest clinical sensitivity. These determinations are important for providing objective information to cardiologists who need to make critical decisions concerning the management of these patients. I review the procedures for treating patients with myocardial infarction, the potential role of CK isoforms, and the methods currently available for isoform analysis, including high-resolution electrophoresis, isoelectric and chromatofocusing, and liquid chromatography. Rapid and highly sensitive methods are needed for implementation of CK-MM and MB isoforms for prospective emergency determinations for patients with acute myocardial infarction.     

肌酸激酶同工酶检测在急性心肌梗死中的临床价值

目的 探讨肌酸激酶（CK）MB和MM同工酶（CK-MB和CK-MM）亚型在急性心肌梗死（AMI）患者中的变化规律与其预后的关系,评价CK同工酶的亚型检测在AMI心肌早期再灌注、梗死延迟或再梗死诊断中的临床价值。方法 采用琼脂糖凝胶电泳系统将血清CK同工酶亚型分离为CK-MM3、CK-MM2、CK-MM1、CK-MB2和CK-MB1,并分析比较21例AMI患者血清CK同工酶亚型在发病后0～6小时、24小时和72小时的动态变化。结果 AMI患者血清CK-MB和CK-MM在发病后6h开始升高,其中以CK-MB2和CK-MM3升高为主,MB2／MB1〉1．36,MM3／MM1〉0．7;12-24小时达峰值,CK-MB／CK〉30％。15例早期再灌注的AMI患者血清CK、CK-MB和CK-MM在72小时下降至正常,但6例无早期再灌注患者仍处于较高水平,其中MB2／MB1〉1．29,MM3／MM1〉0．65。结论 CK同工酶的亚型检测能反映AMI患者心肌组织损伤的动态过程,可作为一项较灵敏的生化指标,有助于诊断AMI心肌早期再灌注、梗死延迟或再梗死。     

Simultaneous automated measurement of serum total CK and CK-MM lsoform ratio in serum

We automated a two-step kinetic procedure for determining serum CK-MM isoform ratio using an immunoinhibition method. By measuring the total CK activity and the residual CK activity (serum CK-MM isoform) remaining after the inhibition by tissue CK-MM isoform specific monoclonal antibody reagent (CK-M01) the CKMM isoform ratio is calculated using the difference between total CK and residual CK activities divided by the residual CK activity. Linearities of total CK and residual CK assays were?7750 U/L and 2,500 U/L, respectively; within-run CVs of isoform ratio (N = 10) were 2.8 and 7.0% (mean 0.14 and 0.60), respectively. The MM³/MM¹ isoform ratio obtained with the proposed method (X) correlated well with the results of electrophoretic method (Y) according to the equation: Y = 0.98X ?0.3, r = 0.988. The normal reference range of isoform ratios obtained by assaying 1,222 serum samples from healthy subjects was 0.09–0.75. The isoform ratio increased after onset of chest pain, peaking at 2–6 hr thereafter. A mean isoform ratio of 1.86 was obtained with serum sample from 86 patients diagnosed as having an acute myocardial infarction (AMI). This method is accurate and highly sensitive, as the detection and early diagnosis of AMI can be completed in 10 min. © 1994 Wiley-Liss, Inc.     

Serum creatine kinase MM sub-band determination by isoelectric focusing: a potential method for the monitoring of myocardial infarction

Fresh myocardium homogenates analyzed by thin-layer isoelectric focusing revealed the presence of two prominent creatine kinase (CK; EC 2.7.3.2) sub-bands, MMO (pI 7.10) and MM1 (pI 6.88), in approximately equal proportion. While these forms represented together as much as 85% of the cellular MM fraction, they accounted only for viz. 2.2 and 27.7% of the total serum MM activity when measured 8 h before the CK peak in patients with myocardial infarction. Incubation of the isolated MMO and MM1 with normal human serum demonstrated that the former turned to MM1 within 5 h at 37°C; further changes affecting MM1 gave rise to other sub-bands, MM2 (pI 6.70), MM3 (pI 6.45), and MM4 (pI 6.25). In our patient population, these three forms represented more than 75% of the serum CK-MM activity at the CK peak; hence, soon after the enzyme release, the serum MM isoenzyme mainly consists of degradation products arising from the labile MMO and MMl. Among the two cellular forms, MMO was the best related to the total enzyme activities and the most efficient for differentiating the patients with left ventricular failure from the others during the entire survey period (F = 3.8, p < 0.05). Because its presence in the blood provides evidence for a very recent CK release from the tissues, serum CK-MMO determinations might be proposed for following the extension of the lesion after a myocardial infarct.     

MM subisoenzymes of creatine kinase as an index of disease activity in polymyositis

Creatine kinase (CK; EC 2.7.3.2), although the most commonly measured enzyme for assessing disease activity in polymyositis, is not always a reliable indicator of the extent and severity of myositis. Recently, the CK-MM isoenzyme has been found to undergo post-synthetic modifications upon release into the serum, such that electrophoretically identifiable sub-bands or subisoenzymes--MM1, MM2, and MM3--are produced. To determine the diagnostic and discriminative value of these subisoenzymes in polymyositis, we analyzed CK and its MM subisoenzyme forms in serum samples from 22 patients with myositis and from 23 controls. In the presence of inflammatory myositis and increased total CK activity, MM-patterns correlated with the clinical trend, often more accurately than did measurements of total CK. MM1 proportions greater than 30% of total CK-MM or ratios of MM3 to MM1 less than 1 were associated with an improving or stable condition, whereas MM1 activity less than 30% or MM3/MM1 greater than 1 reflected a deteriorating course of disease. Patients whose disease was assessed to be clinically deteriorating were clearly distinguished from patients with improving disease by their subisoenzyme patterns (p less than 0.01). Thus these patterns add significantly to the information obtainable by routine blood analysis.     

Early detection of skeletal muscle injury by assay of creatine kinase MM isoforms in serum after acute exercise

We could detect skeletal muscle injury early after an acute exercise bout by measuring creatine kinase (CK, EC 2.7.3.2) MM isoforms in serum. Eleven men performed 120 alternating-arm, eccentric (muscle lengthening) biceps contractions with the intensity of each contraction being 110% of maximal concentric strength--a form of exercise previously shown to cause significant increases of CK in serum at 24 h and muscle soreness 48 h after exercise. Total CK and CK-MM isoform activities in serum were determined before and at 0.5, 0.75, 1, 1.5, 2, and 6 h after exercise. Using thin-film agarose gels and a rapid isoelectric focusing technique, we separated the MM isoforms into MM3 (skeletal muscle form), MM2, and MM1 (in vivo conversion forms). The isoforms reflected the MM form released into the serum from tissue as well as the conversion of one form to another. There were no significant increases in total CK from before to 6 h after exercise: 75 (SD 36) vs 91 (SD 33) U/L. However, CK MM3 in serum increased significantly (P less than 0.01) within 2 h after exercise from 22 (SD 6)% to 28 (SD 6)%. The MM3 to MM1 ratio also increased significantly (P less than 0.05) during this time, from 0.6 (SD 0.3) to 0.9 (SD 0.4). Thus, quantification of CK MM isoforms permitted very early detection of skeletal muscle enzyme release.     

Creatine kinase MM isoforms in serum after cardiac surgery

We evaluated creatine kinase (CK; EC 2.7.3.2) MM3:MM1 isoform ratios in the serum of cardiac patients immediately after cardiac surgery for the diagnosis of perioperative myocardial injury. The mean ratio was 4.8 (range, 1.4-10.7) in 22 patients who had postoperative myocardial complications and 4.6 (1.3-9.6) in 66 patients who did not. By the first postoperative day the ratio had decreased substantially in both groups of patients. The isoform ratio did not correlate with the concentration of total CK, CK-MB, total lactate dehydrogenase (LD), or the incidence of LD1:LD2 or LD5:LD2 ratio reversal. Of these measurements, CK-MB and LD concentrations differed most between the groups of patients; parallel testing of CK-MB and LD showed an optimized sensitivity and specificity of 77% and 87%, respectively. We conclude that analysis for CK-MM isoforms does not add information in the period immediately after cardiac surgery; concentrations of CK-MB and LD correlate with myocardial injury, but the sensitivity and specificity of these measurements may not be high enough for clinical utility.     

Isoelectric focusing of creatine kinase MM isoforms and its application for diagnosis of acute myocardial infarction

CK MM isoforms (MM 3 having the highest isoelectric point, followed by MM 2, MM 1, and MM X) were measured in 35 patients with acute myocardial infarction (AMI) by isoelectric focusing on agarose gel. Blood samples were analysed every 2 h for the first 12 h, then every 4-8 h until 72 h after AMI. In the first sample, obtained 2.1 h after the onset of chest pain, the ratio of the isoforms MM 3:1 was 0.7 (range 0.2-1.8), equivalent to a normal value. Before the total CK exceeded normal, in 86% of the patients the ratio MM 3:1 rose to 2.2 (range 0.3-3.3). The maximal individual ratio MM 3:1 was 4 (range 0.9-12) after 7 h. It fell below 1 again after 27 h. Thus, the ratio MM 3:1 was useful in the early diagnosis of AMI by enzymatic methods and to estimate the time elapsed since the onset of infarction. Twenty patients with an open infarct vessel (angiographic data after thrombolytic therapy) showed similar peak enzyme activities as ten non-reperfused patients. They differed significantly in the time to the peak activity, mostly for CK MM 3 and CK MB (p less than 0.0005). A higher ratio CK MM 3:1 and a shorter time to the maximum CK MM 3 activity in reperfused patients helps to assess the success of thrombolytic therapy.     

Highly sensitive enzyme immunoassay for human creatine kinase MM and MB isozymes

A sensitive enzyme immunoassay system for measurement of MM and MB forms of human creatine kinase (CK) was developed using purified monospecific antibodies to the M subunit and to the B subunit of CK. The CK-MM assay system consisted of polystyrene balls with immobilized F(ab')2 fragments of anti-M and the same antibody Fab' fragments labeled with beta-D-galactosidase from Escherichia coli. The CK-MB was assayed with the polystyrene balls with either antibody (anti-M or anti-B) F(ab')2 fragments and the other antibody (anti-B and anti-M, respectively) Fab' fragments labeled with galactosidase. The assays were highly sensitive and 3 pg of CK-MM and CK-MB were measurable. The CK-MM assay was specific to the M subunit of creatine kinase, and it cross-reacted about 15% with CK-MB, but not with CK-BB. The CK-MB assay did not cross-react with CK-MM nor CK-BB. Therefore, concentrations of CK-MM could be estimated by subtracting the cross-reacting values of CK-MB. Coefficients of variation in within-run and between-run precision studies for serum CK-MM and CK-MB were less than 9%. Serum levels in healthy adults of various ages (16-59 yr old) were ranged from 35.2-132 ng/ml for CK-MM and from 0.40-1.77 ng/ml for CK-MB. There was apparently no statistical significance among the sex- and age-related differences. Concentrations of CK-MM and CK-MB in various human tissues were also determined. The CK-MM was present abundantly in the heart and the tissues composed of striated muscles (skeletal muscle, diaphragm and proximal esophagus). The CK-MB was distributed not only in the heart but also in the striated muscle tissues at a relatively high level.     

heterogeneity of creatine kinase isoenzyme MM in serum in myocardial infarction: interconversion of the "normal" and "abnormal" sub-bands by glutathione

We used isoelectric focusing (IEF) in polyacrylamide gels to investigate the effects of glutathione on the sub-bands of serum creatine kinase (CK; EC 2.7.3.2) isoenzyme MM in acute myocardial infarction. The intensity of the "abnormal" sub-bands c (pI 7.25), e (pI 6.85), and g (pI 6.50) increased, and that of the "normal" sub-bands 1 (pI 6.91), 2 (pI 6.65), and 3 (pI 6.35) decreased, following serum incubation with reduced glutathione (GSH, final concentration 1.25 mmol/L). Further incubation with oxidized glutathione (GSSG, final concentration 5 mmol/L) reversed this change and restored the original pattern, whereas GSSG at 7.5 mmol/L caused sub-bands c, e, and g to disappear and sub-bands 1, 2, and 3 to be enhanced. Sequential incubation of serum with 2.5 mmol of GSSG and 7.5 mmol of GSH per liter produced the opposite sequence of events; i.e., the "abnormal" sub-bands disappeared then reappeared (and GSH at 10 mmol/L enhanced their reappearance). At higher concentrations, glutathione (GSH or GSSG) impaired the detection of the CK-MM sub-bands after IEF, an effect that was "quenched" by heat-inactivated serum of low CK activity. Likewise, the intensity of tissue CK-MM (corresponding to myocardium extracted into 100 mmol/L Tris HCl buffer, pH 7.4) was greatly enhanced by adding heat-inactivated serum to the tissue extract before IEF. We discuss the significance of these findings for the diagnosis of myocardial infarction.     

Serum isoforms of creatine kinase MM and MB in myocardial infarction. An appraisal of quantitative, clinical and pathophysiological information

Using an electrophoretic method, the changes in the catalytic activities of three CK-MM isoforms (MM1, MM2, MM3) and two CK-MB isoforms (MB1, MB2) in the serum of 13 patients with acute myocardial infarction (AMI) have been monitored for 3 days after the onset of chest pain. In post-AMI period, MM3 reaches a peak first, 17 h after infarction (394 U/l), followed by MB2 (17.3 h, 190 U/l), MB1 (20.6 h, 82 U/l), MM2 (28.7 h, 637 U/l), and MM1 (32 h, 780 U/l). According to their faster decay from circulation, MB2 and MM3 have higher fractional disappearance rates (-0.035 and -0.026 per hour, respectively). The MM3/MM1 activity ratio rises beyond the upper limit found in healthy subjects within about 3 h after onset of symptoms and peaks 9.3 h after AMI, even earlier than peaks of isoforms. These characteristics make the ratio an earlier and more sensitive indicator of acute enzyme release from necrotic myocardium.     

An immunologic pathway for intravascular catabolism of creatine kinase subform MM3.

In vitro incubation of the MM3 subform of human creatine kinase (ATP:creatine N-phosphotransferase, EC 2.7.3.2, CK) with fresh human serum resulted in the formation of a complex of high relative molecular mass (Mr 320 kDa). The formed complex (macro CK-MM3) consists of both CK-MM3 and immunoglobulin A (IgA), and its amount of the formed complex was proportional to CK-MM3 activity and IgA concentration. Two molecules of CK-MM3 combined with one molecule of IgA, and the immunoglobulin inhibited the enzyme activity. As IgA does not form complexes with other subforms (CK-MM2 and CK-MM1) or CK-MB, the antigen specificity of IgA to CK-MM3 is definitely exacting. The circumstantial evidence suggests that macro CK-MM3 is a specific antigen-antibody complex. Macro CK-MM3 was detected in all of the examined sera of adult patients with more than 2001 U/1 CK activity (the positive percentage of macro CK-MM3 in all adult patients was 73%), but not detected in sera of patients who were younger than 12 months old. No relationship was observed between macro CK-MM3 and the patients' underlying diseases. Macro CK-MM3 formation suggested to be an immunologic pathway for intravascular catabolism of CK-MM3 when its activity increases.     

Isoforms of creatine kinase MM and MB in acute myocardial infarction: a clinical evaluation

Serum creatine kinase (CK, EC 2.7.3.2) isoenzymes MM and MB were resolved, respectively, into three (MM1, MM2, MM3) and two (MB1, MB2) isoforms (subforms derived from the same isoenzyme) by electrophoresis and the isoform patterns were determined in multiple sequential serum samples, timed from the onset of chest pain, from 58 patients with acute myocardial infarction (AMI). During the first 3 h after the onset of chest pain, the serum isoform activity resembled the pattern seen in normal volunteers. Specimens obtained 6 h after AMI showed predominantly MM3 and MB2 (45% and 11% of the total CK activity, respectively). Between 10 and 72 h, there was a gradual shift in which MM3, MM2 and MB2 decreased, while MM1 and MB1 increased. MB2 and MB1 disappeared from the pattern for samples collected after 24-48 h, while MM1 was always the most prominent band at the end of the observation period (66%, range 41-77%, at 48 h). These data suggest that a single determination of CK isoform pattern, drawn between 6 and 48 h after AMI, may provide an effective means of predicting the time of onset of necrosis. There were no significant differences in the CK isoform patterns according to infarct location and functional status of patients.     

Isoforms of creatine kinase: MM in the study of skeletal muscle damage

Isoforms of creatine kinase (CK) MM have been analysed in plasma from normal subjects and patients with muscular dystrophy using isoelectric focusing techniques. Most plasma samples analysed contained three isoforms of CK-MM of isoelectric points 7.26 (MMI), 6.85 (MMII) and 6.45 (MMIII) although in some plasma samples two additional isoforms of isoelectric points 7.12 and 6.65 were seen. Patients with muscular dystrophy were found to have a generally higher proportion of CK-MMI in their plasma than normal subjects and this was relatively unaffected by large variations in the total creatine kinase activity. By comparison eccentric exercise in normal subjects was found to result in a large increase in total plasma CK activity which then declined to normal over a period of approximately 6 days. CK-MMI was found to increase initially followed by CK-MMII and CK-MMIII. Analysis of the isoforms in biopsy samples of human muscle revealed the presence of two of the bands found in plasma (CK-MMI and MMII) and a third muscle specific isoform, while incubation of muscle homogenates in plasma induced the formation of CK-MMIII and the two isoforms of pI 7.12 and 6.65. It is concluded that analyses of CK-MM isoforms in human plasma can provide useful information on the extent and relative time course following an episode of muscle damage but that in patients with muscular dystrophy the large variations in plasma CK activity are not reflected in the proportion of CK found in each isoform.(ABSTRACT TRUNCATED AT 250 WORDS)     

Measurement of creatine kinase MM sub-type by anion-exchange liquid chromatography

Electrophoretic and isoelectric focusing studies have demonstrated the presence of multiple sub-forms of the major creatine kinase isoenzymes, and preliminary work has suggested that measurement of the mm sub-forms provides early diagnostic information concerning acute myocardial infarction. We developed an isocratic method based on liquid chromatography to examine further the clinical potential of measuring these sub-forms. An anion-exchange column is used coupled with the fluorometric detection of NADPH after reaction of the sub-forms with CK reagents, which are added through a post-column pump. We examined various chromatographic variables in producing the best separations. Results for blood collected from normal individuals and patients with acute myocardial infarction and skeletal muscle diseases are compared. We conclude that for routine CK-MM sub-form analysis, this chromatographic procedure is better suited than isoelectric focusing because of the faster turn-around and lower costs.     

Conversion of MM creatine kinase isoforms in human plasma by carboxypeptidase N

This study was undertaken to identify the carboxypeptidase(s) (CPase) in plasma mediating sequential conversion of the tissue isoform of the MM isoenzyme of creatine kinase (MM3 CK) to MM2 and MM1 isoforms and to elucidate relationships between CPase activity measured in plasma and observed rates of isoform conversion in vitro. Purified MM3 was incubated at 37 degrees C in plasma from normal subjects and patients with acute myocardial infarction. Isoforms were quantified by chromatofocusing. Preincubation with antiserum to CPase N prevented conversion of added MM3 to MM2 and MM1. Isoform conversion rates in the absence of antibody were proportional to plasma CPase N activity assayed spectrophotometrically by hydrolysis of furylacryloyl-L-alanyl-L-lysine substrate (r = 0.89, n = 8). Plasma CPase N activity varied by nearly 300% among individuals, but average activity was similar in samples from normal subjects (267 +/- 45 [SD] U/L, n = 18), those from outpatients with angina (289 +/- 43 U/L, n = 9), and those obtained at hospital admission from patients with acute infarction (Q wave: 279 +/- 70 U/L, n = 16; non-Q wave: 272 +/- 61 U/L, n = 14) or unstable angina (280 +/- 71 U/L, n = 11). In patients with Q wave infarction, CPase N activity increased by 43% +/- 25% between 48 hours and 72 hours (P less than 0.005 compared with admission) with a concomitant change in the rate of conversion of isoforms. Thus, the rate of conversion of isoforms in individual subjects can be estimated by assay of CPase N activity in plasma.(ABSTRACT TRUNCATED AT 250 WORDS)     

Radioimmunoassay of creatine kinase isoenzymes in human serum: isoenzyme MM

Measurement of the mass concentration of serum enzymes by radioimmunoassay provides direct quantitation of specific isoenzymes and may be less subject to some of the limitations of traditional assay procedures for enzymes. We describe the development of a sensitive and specific radioimmunoassay for the muscle isoenzyme of creatine kinase, CM-MM, in human serum. CK-MM, purified from human skeletal muscle, was used to raise high-titer antisera and for iodination by the Chloramine T method. The radioimmunoassay required 50 microliter of sample, utilized a double-antibody separation method, and was completed in 24 h. Cross reactivity with CK-BB was virtually zero, 3--17% with CK-MB. The mass concentration of CK-MM in the serum of healthy subjects ranged from 36 to 1668 microgram/liter and correlated closely with total CK enzymatic activity. Serum concentrations of CK-MM from casually selected patients correlated less well with total CK enzymatic activity, suggesting the existence of other CK isoenzymes or the presence of inactive forms.