Dose-response effects of PEGylated cholecystokinin on the behavioral satiety sequence.

Cholecystokinin (CCK) is known to have a short biological half-life. In order to prolong the half-life and create a new investigative tool, we previously PEGylated the peptide, yielding PEG-CCK(9), and demonstrated that it had a dose-dependent prolonged anorectic effect. The aim of this study was to investigate whether PEG-CCK(9) reduces food intake by inducing satiation or by abnormal physiological effects, such as pain, malaise, or nausea. An observational study was performed to examine the effects of different doses of PEG-CCK(9) (1, 2, 4, 8, or 16 microg kg(-1)) on feeding and other behaviors. The behavioral sequence associated with satiety (BSS), i.e. the orderly progression from eating, through grooming and activity, to resting, was analyzed. From the lowest dose tested (1 microg kg(-1)), PEG-CCK(9) caused a dose-dependent reduction in food intake due to a dose-related reduction in both the duration and frequency of eating and a dose-dependent increase in duration of rest. A dose-dependent acceleration in the temporal profile of the BSS was observed, while the normal structure of feeding behaviors was well preserved, except at the dose of 16 microg kg(-1) of PEG-CCK(9), at which a decrease in eating rate and grooming behavior was observed, together with the occurrence of a significant number of abdominal cramps. These findings suggest that the hypophagic response to PEG-CCK(9) is mainly induced by natural mechanisms of satiety, although abnormal physiological effects, such as abdominal cramps, might reinforce the food inhibitory effect, especially at high doses of PEG-CCK(9) (>8 microg kg(-1)).

PEGylated cholecystokinin is more potent in inducing anorexia than conditioned taste aversion in rats.

BACKGROUND AND PURPOSE: The physiological involvement of endogenous cholecystokinin (CCK) in the termination of feeding has been challenged by evidence of aversive effects of exogenous CCK8. We previously prolonged the anorectic effect of CCK by conjugation to polyethylene glycol (PEGylation) to produce PEG-CCK9. In this study, we investigated the ability of different doses of PEG-CCK9 to induce conditioned taste aversion (CTA) and satiety and identified the receptors involved in CTA induction. EXPERIMENTAL APPROACH: Induction of CTA, measured by the saccharin preference ratio determined in a two-bottle CTA procedure, and of satiety in adult male Wistar rats after intraperitoneal (i.p.) injection of different doses of PEG-CCK9 (1, 2, 4, 8, 16 or 32 microg kg(-1)) was compared. Devazepide (100 microg kg(-1)) and 2-NAP (3 mg kg(-1)), two selective CCK1-receptor antagonists, were co-administered i.p. with PEG-CCK9 (8 microg kg(-1)) and the CTA effects monitored. KEY RESULTS: PEG-CCK9 dose-dependently induced CTA, with a minimal effective dose of 8 microg kg(-1), whereas the minimal effective dose to induce satiety was 1 microg kg(-1). The CTA effects of PEG-CCK9 were completely abolished by i.p. administration of devazepide prior to PEG-CCK9 treatment and only partially abolished by administration of 2-NAP. CONCLUSIONS AND IMPLICATIONS: Although PEG-CCK9-induced satiety and PEG-CCK9-induced CTA both increased with dose, the conjugate was more potent in inducing satiety, suggesting that the anorexia could not be completely attributed to the aversiveness of the drug. As observed with induction of satiety, PEG-CCK9-induced CTA was mediated by CCK1-receptors.

Development of sandwich-type ELISAs for the quantification of rat and murine thrombin activatable fibrinolysis inhibitor in plasma.

BACKGROUND: Altered plasma levels of thrombin activatable fibrinolysis inhibitor (TAFI) are associated with a large number of pathologies. Rat and murine models are frequently used to study the pathophysiological role of TAFI in vivo but immunological tools to quantify rat and murine TAFI are lacking. OBJECTIVE: The production of monoclonal antibodies (mAb) towards rat TAFI and the development of an ELISA for the quantification of rat and murine TAFI in plasma. METHODS AND RESULTS: Monoclonal antibodies were raised in TAFI-deficient mice towards (activated) recombinant rat TAFI. Pair-wise testing of the mAb revealed three suitable ELISA combinations, namely RT36A3F5/RT30D8-HRP, RT36A3F5/RT82F12-HRP and RT82F12/RT36A3F5-HRP. All three ELISAs are highly specific for rat and murine TAFI. TAFI concentrations in the lower ng mL(-1) range can be determined in plasma samples with a high reproducibility. Comparing TAFI antigen levels measured by these ELISAs with TAFIa activity values determined by activity based assays revealed excellent correlations (R(2) > 0.98). The average antigen levels of 20 individual rat plasma samples were 16 +/- 2 microg mL(-1) using the RT36A3F5-RT30D8-HRP, 12 +/- 2 microg mL(-1) using the RT36A3F5-RT82F12-HRP and 21 +/- 2 microg mL(-1) using the RT82F12-RT36A3F5-HRP ELISA. The determined antigen levels in rat plasma are similar to the levels reported for human plasma. CONCLUSIONS: We developed three highly specific and extremely sensitive sandwich-type ELISAs for the quantification of rat and murine TAFI in plasma. The described ELISAs will facilitate in vivo investigation on the pathophysiological role of TAFI.

PEGylated cholecystokinin prolongs satiation in rats: dose dependency and receptor involvement.

BACKGROUND AND PURPOSE: Acute intraperitoneal (i.p.) administration of cholecystokinin (CCK) is known to induce a significant, but short-lasting, reduction in food intake, followed by recovery within hours. Therefore, we had covalently coupled CCK to a 10 kDa polyethylene glycol and showed that this conjugate, PEG-CCK(9), produced a significantly longer anorectic effect than unmodified CCK(9). The present study assessed the dose-dependency of this response and the effect of two selective CCK(1) receptor antagonists, with different abilities to cross the blood-brain barrier (BBB), on PEG-CCK(9)-induced anorexia. EXPERIMENTAL APPROACH: Food intake was measured, for up to 23 h, after i.p. administration of different doses (2, 4, 8, 16 and 32 microg kg(-1)) of CCK(9) or PEG-CCK(9) in male Wistar rats. Devazepide (100 microg kg(-1)), which penetrates the BBB or 2-NAP (3 mg kg(-1)), which does not cross the BBB, were coadministered i.p. with PEG-CCK(9) (6 microg kg(-1)) and food intake was monitored. KEY RESULTS: In PEG-CCK(9)-treated rats, a clear dose-dependency was seen for both the duration and initial intensity of the anorexia whereas, for CCK(9), only the initial intensity was dose-dependent. Intraperitoneal administration of devazepide or 2-NAP, injected immediately prior to PEG-CCK(9), completely abolished the anorectic effect of PEG-CCK(9). CONCLUSIONS AND IMPLICATIONS: The duration of the anorexia for PEG-CCK(9) was dose-dependent, suggesting that PEGylation of CCK(9) increases its circulation time. Both devazepide and 2-NAP completely abolished the anorectic effect of i.p. PEG-CCK(9) indicating that its anorectic effect was solely due to stimulation of peripheral CCK(1) receptors.