Cardiac troponin T degradation in end-stage renal disease patients appears to occur in vivo

Abstract

Abstract Background Cardiac troponin T (cTnT) is a cornerstone biomarker for diagnosing myocardial infarction (MI). However, since the introduction of the high-sensitivity assays, cardiac troponins are also measured in pathologies with cardiac risk factors, such as end-stage renal disease (ESRD), making it more difficult for clinicians to diagnose MI. Previous studies of our group identified specific larger cTnT proteoforms for the acute phase of MI, while a study in serum of ESRD patients showed solely small cTnT fragments. However, others allocated the small cTnT fragments in serum of ESRD patients to a pre-analytic effect due to abundant thrombin generation in serum, as thrombin is known to cause fragmentation of cTnT. Purpose This study investigated the effect of multiple anticoagulation methods on cTnT proteoforms in vitro and in the blood of ESRD patients. Methods First, cTnT negative serum and lithium-heparinized (LH), ethylenediaminetetraacetic-acid (EDTA), and hirudin plasma tubes were spiked with human cTnT standard, incubated at 37°C till 48 hours, and analysed with Western Blotting using anti-cTnT Roche antibodies. Second, similar blood tubes were collected from ESRD patients (n=10) conform the Declaration of Helsinki, patient samples and spiked cTnT standards were separated using gel filtration chromatography (GFC) and cTnT was subsequently analysed using the Cobas 6000 analyser. Results After 48 hours of in vitro incubation of cTnT in hirudin plasma, no cTnT degradation was observed, while LH only showed minor degradation of 10% from intact 40 kDa cTnT to 29 kDa fragments (figure 1). Also, for both EDTA and serum, a time-dependent degradation from 40 kDa cTnT to 29 kDa fragments to 15–18 kDa fragments was observed. Moreover, in ESRD patients, GFC elution profiles of all blood tubes revealed that 85–98% of cTnT corresponded to small 15–18 kDa fragments (41–42 mL), while 2–15% were 29/40 kDa cTnT forms (27–28 mL). For comparison, standards of ternary T-I-C complex and intact cTnT eluted at 21 mL and 28 mL, respectively. Conclusions The extent of cTnT degradation in vitro is dependent on the anticoagulation method of the blood tubes, with absence of degradation exclusively in hirudin plasma. Since in ESRD patients for all blood tubes mainly small 15–18 kDa cTnT fragments were found, including hirudin plasma, cTnT degradation appears to occur in vivo. This observation supports the hypothesis that larger cTnT proteoforms might indeed be specific for the acute phase of MI, thereby supporting the opportunity for developing a more specific cTnT method. Funding Acknowledgement Type of funding sources: Public grant(s) – National budget only. Main funding source(s): ZonMw Veni grant