Discovery of CP-96,345 and its characterization in disease models involving substance P

Aprepitant Alleviates Poststroke Pneumonia in a Mouse Model of Middle Cerebral Artery Occlusion

Elevated substance P can be utilized to predict early mortality during the first week of cerebral infarction. Whether aprepitant, a substance P receptor blocker could be utilized to alleviate poststroke pneumonia which is investigated in this study. Intraluminal monofilament model of middle cerebral artery occlusion (MCAO) was constructed in C57BL/6J male mice, and the relative expression of substance P was detected in collected bronchoalveolar lavage fluid (BALF) and lung tissue homogenate at 24 hours, 48 hours, and 72 hours poststroke. On the other hand, different concentrations of aprepitant (0.5, 1, and 2 mg/kg) were atomized and inhaled into MCAO mice. Inflammation cytokines and bacterial load were detected in collected BALF and lung tissue homogenate at 72-hour poststroke, and lung injury was revealed by histological examination. Aprepitant administration decreased total proteins, total cells, neutrophils, and macrophages in BALF. The concentrations of interleukin (IL)-6, IL-1β, tumor necrosis factor-α, interferon γ, monocyte chemoattractant protein-1, and IL-10 in lung tissue homogenates were also diminished by the administration of aprepitant. In conclusion, aprepitant could attenuate poststroke pneumonia in mice suggesting its potential therapeutic use in the clinic.

Chronic pruritus: from pathophysiology to drug design

Pruritus, the most common symptom in dermatology, is an innate response capable of protecting skin against irritants. Nonetheless, when it lasts more than six weeks it is assumed to be a chronic pathology having a negative impact on people's lives. Chronic pruritus (CP) can occur in common and rare skin diseases, having a high prevalence in global population. The existing therapies are unable to counteract CP or are associated with adverse effects, so the development of effective treatments is a pressing issue. The pathophysiological mechanisms underlying CP are not yet completely dissected but, based on current knowledge, involve a wide range of receptors, namely neurokinin 1 receptor (NK1R), Janus kinase (JAK), and transient receptor potential (TRP) ion channels, especially transient receptor potential vanilloid 1 (TRPV1) and transient receptor potential ankyrin 1 (TRPA1). This review will address the relevance of these molecular targets for the treatment of CP and molecules capable of modulating these receptors that have already been studied clinically or have the potential to possibly alleviate this pathology. According to scientific and clinical literature, there is an increase in the expression of these molecular targets in the lesioned skin of patients experiencing CP when compared with non-lesioned skin, highlighting their importance for the development of potential efficacious drugs through the design of antagonists/inhibitors.

Neuropeptides: metabolism to bioactive fragments and the pharmacology of their receptors

The proteolytic processing of neuropeptides has an important regulatory function and the peptide fragments resulting from the enzymatic degradation often exert essential physiological roles. The proteolytic processing generates, not only biologically inactive fragments, but also bioactive fragments that modulate or even counteract the response of their parent peptides. Frequently, these peptide fragments interact with receptors that are not recognized by the parent peptides. This review discusses tachykinins, opioid peptides, angiotensins, bradykinins, and neuropeptide Y that are present in the central nervous system and their processing to bioactive degradation products. These well-known neuropeptide systems have been selected since they provide illustrative examples that proteolytic degradation of parent peptides can lead to bioactive metabolites with different biological activities as compared to their parent peptides. For example, substance P, dynorphin A, angiotensin I and II, bradykinin, and neuropeptide Y are all degraded to bioactive fragments with pharmacological profiles that differ considerably from those of the parent peptides. The review discusses a selection of the large number of drug-like molecules that act as agonists or antagonists at receptors of neuropeptides. It focuses in particular on the efforts to identify selective drug-like agonists and antagonists mimicking the effects of the endogenous peptide fragments formed. As exemplified in this review, many common neuropeptides are degraded to a variety of smaller fragments but many of the fragments generated have not yet been examined in detail with regard to their potential biological activities. Since these bioactive fragments contain a small number of amino acid residues, they provide an ideal starting point for the development of drug-like substances with ability to mimic the effects of the degradation products. Thus, these substances could provide a rich source of new pharmaceuticals. However, as discussed herein relatively few examples have so far been disclosed of successful attempts to create bioavailable, drug-like agonists or antagonists, starting from the structure of endogenous peptide fragments and applying procedures relying on stepwise manipulations and simplifications of the peptide structures.

Substance P antagonist CP-96345 blocks lung vascular leakage and inflammation more effectively than its stereoisomer CP-96344 in a mouse model of smoke inhalation and burn injury

The recently developed murine model of smoke inhalation and burn (SB) injury was used to study the effect of the substance-P antagonist CP96345. C57BL/6 mice were pre-treated with an i.v. dose of a specific NK-1 receptor antagonist, CP9635, or its inactive enantiomer, CP96344, (10 mg/Kg) 1 h prior to SB injury per protocol (n = 5). Mice were anesthetized and exposed to cooled cotton smoke, 2X 30 s, followed by a 40% total body surface area flame burn per protocol. At 48 h after SB injury Evans Blue (EB) dye and myeloperoxidase (MPO) were measured in lung after vascular perfusion. Lungs were also analyzed for hemoglobin (Hb) and wet/dry weight ratio. In the current study, CP96345 pre-treatment caused a significant decrease in wet/dry weight ratio (23%, p = 0.048), EB (31%, p = 0.047), Hb (46%, p = 0.002), and MPO (54%, p = 0.037) levels following SB injury compared to animals with SB injury alone. CP-96344 pre-treatment caused an insignificant decrease in wet/dry weight ratio (14%, p = 0.18), EB (16%, p = 0.134), Hb (9%, p = 0.39), and an insignificant increase in MPO (4%, p = 0.79) as compared to mice that received SB injury alone. As expected, levels of EB, Hb, MPO, and wet/dry weight ratios were all significantly (p < 0.05) increased 48 h following SB injury alone compared to respective sham animals. In conclusion, the current study indicates that pre-treatment with a specific NK-1R antagonist CP-96345 attenuates the lung injury and inflammation induced by SB injury in mice.

Intraductal administration of an NK1 receptor antagonist attenuates the inflammatory response to retrograde infusion of radiological contrast in rats: implications for the pathogenesis and prevention of ERCP-induced pancreatitis

INTRODUCTION

The neurogenic inflammatory mediator, substance P (SP), has been implicated in the pathogenesis of acute secretagogue-induced pancreatitis. We hypothesized that it may also play an important role in the development of acute pancreatitis after endoscopic retrograde cholangiopancreatography (ERCP). AIMS Our aim was to evaluate the effectiveness of CP-96345, a NK1 receptor antagonist, in diminishing post-ERCP pancreatitis in a rat model.

METHODS

The effects of CP-96345, when mixed with the contrast agent, were studied in a rat model of pancreatitis caused by retrograde contrast infusion. After 24 hours, histology, edema, and myeloperoxidase activity (MPO) of pancreas, plasma amylase, and NK1 receptor endocytosis in pancreatic acinar cells were evaluated.

RESULTS

Intraductal contrast infusion caused increases in plasma amylase, edema, histologic grade, and MPO of pancreas, and NK1 receptor internalization in pancreatic acinar cells. The addition of CP-96345 to the infusate significantly reduced pancreatic edema, MPO activity, and the histologic grade of pancreatitis accompanied by a decrease in NK1 receptor internalization.

CONCLUSIONS

When an NK1 receptor antagonist is delivered along with the contrast media there is significant reduction in the pancreatic inflammation caused by intraductal contrast infusion. These results provide some insight into the pathogenesis of ERCP induced pancreatitis as well as present novel pharmacological targets for its prevention.

Substance P (NK(1)) receptor expression by human colonic epithelial cell line Caco-2

The peptide substance P (SP) is known to take part in the regulation of the Cl(-)-dependent secretion in the animal and human colonic mucosa. However, no conclusive evidence for the expression of the functional tachykinin NK(1) receptor has been found in the human colonic epithelial cells. Using the reverse transcription-polymerase chain reaction (RT-PCR) method we could detect the transcripts of the NK(1) receptor in the human colonic epithelial cell line Caco-2. Furthermore, we characterized the mechanism of substance P-induced intracellular signaling in Caco-2 cells. While substance P had no effect on intracellular calcium concentration as measured by fura-2 AM, it induced the activation of the mitogen-activated protein kinases (MAPKs) in a time- and dose-dependent manner. Surprisingly, the peptide NK(1) receptor antagonist [D-Pro(2), D-Trp(7,9)]SP stimulated the activity of MAPKs in the same manner as substance P. In contrast, the specific nonpeptide NK(1) receptor antagonist CP-96,345 clearly abolished the effect of substance P and [D-Pro(2), D-Trp(7,9)]SP on MAPK activity. CP-96,345 itself did not increase the activity of MAPKs. Thus, we provide the first evidence that a functional NK(1) receptor is expressed in the human colonic epithelial cell line Caco-2. The results show that in Caco-2 cells the peptide antagonist [D-Pro(2), D-Trp(7,9)]SP acts as a NK(1) receptor agonist in contrast to the nonpeptide antagonist CP-96,345.

Differential expression of substance P receptors in patients with Crohn's disease and ulcerative colitis

BACKGROUND & AIMS

Although clinical and pathological differences exist between Crohn's disease (CD) and ulcerative colitis (UC), distinguishing features are often absent, making diagnosis and treatment problematic. This study evaluated the differences in the expression of substance P (SP) receptors in patients with CD or UC.

METHODS

Tissue samples from patients with inflammatory bowel disease or control patients were obtained at surgery, processed for 125I-SP binding, and analyzed by quantitative autoradiography.

RESULTS

Patients with CD showed a massive increase in SP receptors in lymphoid aggregates, small blood vessels, and enteric neurons of the small and large bowel relative to controls. Six of 16 CD specimens had no pathological evidence of CD yet continued to express high concentrations of SP receptors. Pathologically positive patients with UC showed high concentrations of SP receptors on colonic lymphoid aggregates and small blood vessels but not enteric neurons. No increased SP binding was evident in clinically and pathologically quiescent UC colons and normal UC ileostomy samples.

CONCLUSIONS

The increased expression of SP receptors on the enteric neurons of patients with CD distinguishes CD from UC. The persistent increased SP binding in pathologically normal CD tissue may indicate a subclinical disease state. SP receptor expression may have important diagnostic, etiologic, and therapeutic usefulness in inflammatory bowel disease.

Inhibition of substance P-induced vascular leakage in rat by N-acetyl-neurotensin-(8-13)

Substance P (SP) administered 40 micrograms/kg s.c. to pentobarbital-anesthetized rats induced salivation and leakage of plasma constituents into the skin, muscle, trachea, esophagus and bladder, as measured by Monastral blue B labeling of small blood vessels or by extravasation of Evans blue dye into tissues. These SP effects were inhibited by N-acetyl-neurotensin-(8-13) (Ac-NT-(8-13)) and by CP-96,345, a nonpeptide SP receptor antagonist. Intralumenal injection of Ac-NT-(8-13) or CP-96,345 into the bladder reduced SP-induced leakage of Evans blue dye but not dye leakage into the pawskin, indicating a localised drug action. Ac-NT-(8-13) appears to act directly on discrete sites in skin and in mucous membranes to functionally antagonize the inflammatory effects of SP.

Substance P binding sites on intestinal lymphoid aggregates and blood vessels in inflammatory bowel disease correspond to authentic NK-1 receptors

Previous reports have described the ectopic expression of substance P binding sites on lymphoid aggregates and small blood vessels in inflammatory bowel disease. In this report, three non-peptide NK-1 receptor antagonists, CP-96,345, RP-67,580, and L-703,606 abolished saturable 125I-Bolton-Hunter substance P binding to the ectopically expressed receptors in frozen sections of surgically resected bowel from five patients with either Crohn's disease or ulcerative colitis. The rank order of affinity was approximately substance P approximately CP-96,345 approximately L-703,606 > RP-67,580. These results suggest that: (i) the ectopically expressed substance P binding sites in inflammatory bowel disease are authentic NK-1 receptors, (ii) all ectopically expressed receptors on small blood vessels, and lymphoid aggregates as well as normally expressed receptors on the bowel circular muscle have similar receptor affinities and specificities for substance P and the non-peptide antagonists, and (iii) non-peptide antagonists may be therapeutically beneficial in inflammatory bowel disease by inhibiting the pro-inflammatory effects of substance P acting via the NK-1 receptor.