Preclinical testing of dabigatran in trypsin-dependent pancreatitis
Zsófia Gabriella Pesei, Zsanett Jancsó, Alexandra Demcsák, Balázs Csaba Németh, Sandor Vajda, Miklós Sahin-Tóth
Zsófia Gabriella Pesei, Zsanett Jancsó, Alexandra Demcsák, Balázs Csaba Németh, Sandor Vajda, Miklós Sahin-Tóth
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Research Article Inflammation Therapeutics

Preclinical testing of dabigatran in trypsin-dependent pancreatitis

Abstract

Pancreatitis, the inflammatory disorder of the pancreas, has no specific therapy. Genetic, biochemical, and animal model studies revealed that trypsin plays a central role in the onset and progression of pancreatitis. Here, we performed biochemical and preclinical mouse experiments to offer proof of concept that orally administered dabigatran etexilate can inhibit pancreatic trypsins and shows therapeutic efficacy in trypsin-dependent pancreatitis. We found that dabigatran competitively inhibited all human and mouse trypsin isoforms (Ki range 10–79 nM) and dabigatran plasma concentrations in mice given oral dabigatran etexilate well exceeded the Ki of trypsin inhibition. In the T7K24R trypsinogen mutant mouse model, a single oral gavage of dabigatran etexilate was effective against cerulein-induced progressive pancreatitis, with a high degree of histological normalization. In contrast, spontaneous pancreatitis in T7D23A mice, which carry a more aggressive trypsinogen mutation, was not ameliorated by dabigatran etexilate, given either as daily gavages or by mixing it with solid chow. Taken together, our observations showed that benzamidine derivatives such as dabigatran are potent trypsin inhibitors and show therapeutic activity against trypsin-dependent pancreatitis in T7K24R mice. Lack of efficacy in T7D23A mice is probably related to the more severe pathology and insufficient drug concentrations in the pancreas.

Authors

Zsófia Gabriella Pesei, Zsanett Jancsó, Alexandra Demcsák, Balázs Csaba Németh, Sandor Vajda, Miklós Sahin-Tóth

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Figure 2

Inhibition of trypsin by dabigatran.

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Inhibition of trypsin by dabigatran. Representative graphs of the kineti...
Representative graphs of the kinetic assays using mouse anionic trypsin (isoform T8) are shown. Three experiments were performed. For clarity and convenience, the mean of the data points was plotted with standard deviation error bars, even though each experiment was analyzed separately. (A) Initial rate of trypsin activity as a function of substrate concentration in the absence and presence of increasing dabigatran concentrations. Rates were measured with 1 nM trypsin and the indicated concentrations of the N-CBZ-Gly-Pro-Arg-p-nitroanilide (GPR-pNA) trypsin substrate. Data sets for given dabigatran concentrations were individually fitted to the Michaelis-Menten equation. (B) Calculation of the competitive inhibitory constant (Ki) of dabigatran (mean ± standard deviation, n = 3). The Km values derived from the saturation curves in A were plotted as a function of the dabigatran concentration. The Ki was then determined by dividing the y axis intercept with the slope of the linear fit. This value corresponds to the negative of the x axis intercept. (C) Calculation of the Ki of dabigatran by global fitting (mean ± standard deviation, n = 3). The data points from A were globally fitted to the competitive inhibition equation, as described in Methods.