An electrophoretic method for the detection of chymotrypsin and trypsin activity directly in whole blood

Lefkowitz, Roy B.; Marciniak, Jennifer Y.; Hu, Che Ming Jack; Schmid‐Schönbein, Geert W.; Heller, Michael

doi:10.1002/elps.200900424

Cited by 43 publications

(46 citation statements)

References 40 publications

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“…1A). Figures 1B and C show the basic steps of the trypsin assay that we previously developed in our first article on this technique [44]. The substrate is first mixed with a blood sample and allowed time to react with target enzyme in the blood and produce the positively charged cleavage fragment (Fig.…”

Section: Resultsmentioning

confidence: 99%

“…The trypsin substrate Ac-N-DGDAGRAGAGK-NH 2 (acetyl, Ac) was synthesized by Aapptec (Louisville, KY, USA) and subsequently labeled on the lysine residue's epsilon amine group with Bodipy FL-SE (Invitrogen, Carlsbad, CA, USA) following the manufacturer's standard labeling protocol (for details, see [44]). This formed the fluorescence-tagged substrate, Ac-N-DGDAGRAGAGK(epsilon amino (e)-Bodipy FL)-NH 2 .…”

Section: Methodsmentioning

confidence: 99%

“…As explained earlier in [44], this requires eliminating activity caused by endogenous enzyme, whose levels are unknown. This is accomplished by performing the cleavage reaction in buffer and then mixing with protease inhibitor-treated blood or plasma immediately prior to electrophoresis.…”

Section: Detection In Human Whole Blood and Plasma Using Polyanionic mentioning

confidence: 98%

“…This is a consequence of the strong background absorption, significant autofluorescence and light scattering resulting from the various components within blood [43]. To address this issue, we recently demonstrated a simple, electrophoretic technique using charge-changing substrates that overcomes the limitation of previous assays and that facilitates measurement of protease activity directly in whole blood, without any sample preparation [44]. This assay uses negatively charged fluorescence-tagged peptide substrates that produce a positively charged fluorescent cleavage fragment (the signal) upon proteolysis.…”

Section: Introductionmentioning

confidence: 98%

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Whole blood assay for trypsin activity using polyanionic focusing gel electrophoresis

2010

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The measurement of trypsin activity directly in blood is important for the development of novel diagnostics and for biomedical research. Presently, most degradative enzyme assays require sample preparation, making them time consuming, costly, and less accurate. We recently demonstrated a simple and rapid electrophoretic assay for the measurement of trypsin activity directly in whole blood. This assay utilizes a charge-changing fluorescent peptide substrate that produces a positively charged fluorescent product fragment upon cleavage by the target enzyme. This fragment is then rapidly separated from whole blood by electrophoresis and quantified with a fluorescent detector. In this study, we demonstrate that polyanionic poly-L-glutamic acid-doped polyacrylamide gels can focus the fluorescent cleavage product and markedly improve the LODs of the assay. A LOD of 2 pg in 6 microL (0.3 ng/mL) in whole human blood was achieved after a 1-h reaction of enzyme and substrate followed by 10 min of electrophoresis. This is 50- to 200-fold better than the estimated reference levels for trypsin (15-60 ng/mL) in blood. This straightforward technique now allows for the rapid measurement of clinically relevant levels of trypsin activity in microliter volumes of whole blood, providing a useful tool for the development of novel point-of-care diagnostics.

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Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Detection In Human Whole Blood and Plasma Using Polyanionic mentioning

confidence: 98%

Section: Introductionmentioning

confidence: 98%

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Whole blood assay for trypsin activity using polyanionic focusing gel electrophoresis

2010

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“…Among the reported methods for detecting enzyme activity, fluorometric analysis offers apparent advantage over other methods, such as electrophoretic method, 6,7 by virtue of their sensitivity and convenience. This method always relies on monitoring the fluorescence intensity as a result of enzymatic substrate proteolysis in the solution.…”

Section: Introductionmentioning

confidence: 99%

A Sensitive fluorescent assay for trypsin activity in biological samples using BSA-Au nanoclusters

Wang¹,

Wang²,

Rao³

et al. 2012

J. Braz. Chem. Soc.

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Neste artigo, foi desenvolvido um novo método fluorométrico, simples, sensível e seletivo, para a medição de tripsina em amostras biológicas. O método foi baseado na medição da supressão da intensidade da fluorescência de agregados de nanopartículas de ouro estabilizados com albumina sérica bovina (BSA), pela proteólise enzimática. A curva de calibração para tripsina foi atingida no intervalo de concentração de 1-60 nmol L -1 com coeficiente de correlação 0,995 e um limite de detecção de 0,6 nmol L -1. O método foi também usado satisfatoriamente para avaliação da atividade da tripsina e os resultados mostraram que os valores das constantes de Michaelis-Menten (K m ) e catalítica (K cat ), de tripsina para estes substratos de nanoagreagados BSA-Au, foram 1,6×10 A novel, simple, sensitive, and selective fluorometric method was developed for measuring trypsin in biological samples in this article. The method was based upon measuring the quenching of the fluorescence intensity of the bovine serum albumin (BSA) stabilized Au nanoclusters by enzymatic proteolysis. The calibration plot for trypsin was achieved over the concentration range 1-60 nmol L -1 with a correlation coefficient of 0.995 and a limit of detection of 0.6 nmol L -1 . The method was also used satisfactorily for the assessment of the trypsin activity and the results showed that the Michaelis-Menten (K m ) and catalytic (K cat ) constant values of trypsin for BSA-Au nanoclusters substrate were 1.6×10-5 mol L -1 and 3.8 s -1 at 37 o C, respectively. This enzyme biosensor is of considerable interest due its promise for simple procedure and the established method has great potential in detection of other proteases in clinical diagnostics of various diseases.

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Thrombin generation assay in untreated whole human blood

Modestino

Tyndall

et al. 2016

Electrophoresis

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Present coagulation assays fail to detect mild coagulation disorders, while thrombin-generation (TG) assays solve this problem. However, most of them only work with threated blood samples, which makes them labor intensive, time consuming, unreliable, and expensive. We have developed a TG electrophoretic assay that uses a thrombin specific charge-changing fluorescent peptide substrate, electrophoretic separation, and requires a drop of blood. The limit of detection of the assay was 1.97 nM in phosphate buffer saline and 6.82 nM in citrated whole blood. The assay was used to determine the TG in whole blood from healthy volunteers (n = 6, one aspirin user), over 30 min, after the blood was drawn; the TG increased from a baseline level of 2 × 10(6) RFU to 1.2 × 10(13) RFU. The lag time between the blood draw and initial burst of TG was 6 min for the volunteers (n = 5) and 15 min for the aspirin user. Specificity of the assay was evaluated by reacting our substrate with the heparinized blood samples and other proteases. The TG electrophoretic assay was designed and tested in the whole human blood, requiring no sample preparation, 5 μL of blood, 45 min, and it detected differences in coagulation patterns between a volunteer taking aspirin and non-aspirin users.

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An electrophoretic method for the detection of chymotrypsin and trypsin activity directly in whole blood

Cited by 43 publications

References 40 publications

Whole blood assay for trypsin activity using polyanionic focusing gel electrophoresis

Whole blood assay for trypsin activity using polyanionic focusing gel electrophoresis

A Sensitive fluorescent assay for trypsin activity in biological samples using BSA-Au nanoclusters

Thrombin generation assay in untreated whole human blood

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