Utility of animal models for identification of potential therapeutics for rheumatoid arthritis.

Animal models of rheumatoid arthritis (RA) are widely used for testing potential new therapies for RA. However, the question of which animal model is most predictive of therapeutic efficacy in human RA commonly arises in data evaluation. A retrospective review of the animal models used to evaluate approved, pending RA therapies, and compounds that were discontinued during phase II or III clinical trials found that the three most commonly used models were adjuvant-induced arthritis (AIA) in rats and collagen-induced arthritis (CIA) in rats and mice. Limited data were found for more recently developed genetically modified animal models. Examination of the efficacy of various compounds in these animal models revealed that a compound's therapeutic efficacy, rather than prophylactic efficacy, in AIA and CIA models was more predictive of clinical efficacy in human RA than data from either model alone.

Interleukin-11 promotes T cell polarization and prevents acute graft-versus-host disease after allogeneic bone marrow transplantation.

Administration of IL-11 prevented lethal graft-versus-host disease (GVHD) in a murine bone marrow transplant (BMT) model (B6 --> B6D2F1) across MHC and minor H antigen barriers (survival at day 50: 90 vs 20%, P < 0.001). Surpisingly, IL-11 administration polarized the donor T cell cytokine responses to host antigen after BMT with a 50% reduction in IFNgamma and IL-2 secretion and a 10-fold increase in IL-4. This polarization of T cell responses was associated with reduced IFNgamma serum levels and decreased IL-12 production in mixed lymphocyte cultures (MLC). In addition, IL-11 prevented small bowel damage and reduced serum endotoxin levels by 80%. Treatment with IL-11 also reduced TNFalpha serum levels and suppressed TNFalpha secretion by macrophages to LPS stimulation in vitro. IL-11 thus decreased GVHD morbidity and mortality by three mechanisms: (a) polarization of donor T cells; (b) protection of the small bowel; and (c) suppression of inflammatory cytokines such as TNFalpha. We conclude that brief treatment with IL-11 may represent a novel strategy to prevent T cell-mediated inflammatory processes such as GVHD.

Naturally occurring cardiomyopathy in the Doberman pinscher: a possible large animal model of human cardiomyopathy?

Currently there is no large animal model of dilated cardiomyopathy. The smaller animal models of cardiomyopathy, such as the Syrian hamster, cannot be studied with echocardiography and cardiac catheterization, and the relevance of these models to human dilated cardiomyopathy is open to question. On the basis of some initial observations in Doberman pinschers, it was speculated that these dogs could have occult left ventricular dysfunction. Accordingly, studies were performed in 46 apparently healthy Doberman pinschers and in 41 mongrel dogs: two-dimensional echocardiography (30 dogs in each group), cardiac catheterization (16 Doberman pinschers and 12 mongrels) and coronary blood flow studies (13 Doberman pinschers and 6 mongrels). In the awake, unsedated dogs studied with echocardiography, left ventricular wall thickening was significantly less in the Dobermans than in the mongrels (28% versus 36%, p = 0.0003). In the anesthetized dogs undergoing cardiac catheterization, left ventricular ejection fraction was significantly lower in the Dobermans than in the mongrels (0.38 versus 0.63, p = 0.0001). Rest coronary blood flow and coronary blood flow reserve were similar in the two groups. It is concluded that apparently healthy Doberman pinschers have occult left ventricular dysfunction. These dogs may serve as a large animal model of dilated cardiomyopathy and should not be used experimentally to study normal cardiac physiology.

Interleukin-11 reduces renal injury and glomerular NF-kappa B activity in murine experimental glomerulonephritis.

BACKGROUND/AIMS: There is now considerable evidence implicating T cells and macrophages in glomerular injury in crescentic glomerulonephritis. Recently, it has been shown that interleukin-11 (IL-11) has an immune modulatory function through its effect on both macrophages and T cells. We, therefore, examined the therapeutic effect of IL-11 in a murine model of experimental glomerulonephritis. METHOD: Accelerated nephrotoxic nephritis was induced in C57BL/6 mice. IL-11 at a dose of 0.5 mg/kg/day (n = 10) in vehicle was given daily subcutaneously from the day of sensitization until day 14 after initiation of glomerulonephritis. Control mice (n = 10) received injection of vehicle alone with the same schedule. RESULTS: IL-11 treatment markedly decreased albuminuria (6.2 +/- 1.9 vs. 18.2 +/- 4.5 mg/day, p < 0.05), the number of glomerular macrophages (1.1 +/- 0.2 vs. 1.7 +/- 0.3 cells/glomerular cross-section, p < 0.05) and glomerular fibrin deposition (fibrin score 0.9 +/- 0.3 vs. 2 +/- 0.3, p < 0.05). There was no difference in the glomerular T cell numbers between the IL-11-treated and the vehicle group. Glomerular NF-kappaB activity was markedly suppressed by 75% in the treated group (p = 0.0015). CONCLUSION: In this study, we provide the first in vivo evidence that IL-11 treatment decreases glomerular NF-kappaB activity and reduces renal injury in experimental glomerulonephritis.

Hematopoietic, immunomodulatory and epithelial effects of interleukin-11.

Interleukin 11 (IL-11) is a pleiotropic cytokine with biological activities on many different cell types. Recombinant human IL-11 (rhIL-11) is produced by recombinant DNA technology in Escherichia coli. Both in vitro and in vivo, rhIL-11 has shown effects on multiple hematopoietic cell types. Its predominant in vivo hematopoietic activity is the stimulation of peripheral platelet counts in both normal and myelosuppressed animals. This activity is mediated through effects on both early and late progenitor cells to stimulate megakaryocyte differentiation and maturation. rhIL-11 has been approved for the treatment of chemotherapy-induced thrombocytopenia. The hematopoietic effects of rhIL-11 are most likely direct effects on progenitor cells and megakaryocytes in combination with other cytokines or growth factors. rhIL-11 also induces secretion of acute phase proteins (ferritin, haptoglobin, C-reactive protein, and fibrinogen) from the liver. The induction of heme oxidase and inhibition of several P450 oxidases have been reported from in vitro studies. In vivo, rhIL-11 treatment decreases sodium excretion by the kidney by an unknown mechanism and induces hemodilution. rhIL-11 also exhibits anti-inflammatory effects in a variety of animal models of acute and chronic inflammation, including inflammatory bowel disease, inflammatory skin disease, autoimmune joint disease, and various infection-endotoxemia syndromes. rhIL-11 has trophic effects on non-transformed intestinal epithelium under conditions of mucosal damage. The mechanism of the anti-inflammatory activity of rhIL-11 has been extensively studied. rhIL-11 directly affects macrophage and T cell effector function. rhIL-11 inhibits tumor necrosis factor-alpha (TNF alpha), interleukin 1beta (IL-1beta), interleukin 12 (IL-12), interleukin 6 (IL-6), and nitric oxide (NO) production from activated macrophages in vitro. The inhibition of cytokine production was associated with inhibition of nuclear translocation of the transcription factor, nuclear factor kappa B (NF-kappaB). The block to NF-kappaB nuclear translocation correlates with the ability of rhIL-11 to maintain or enhance production of the inhibitors of NF-kappaB, IkappaB-alpha and IkappaB-beta. In addition to effects on macrophages, rhIL-11 also reduces CD4+ T cell production of Th1 cytokines, such as IFN gamma induced by IL-12, while enhancing Th2 cytokine production. rhIL-11 also blocks IFN gamma production in vivo. The molecular effects of rhIL-11 have also been studied in a clinical trial. Molecular analysis of skin biopsies of patients with psoriasis before and during rhIL-11 treatment demonstrates a decrease in mRNA levels of TNF alpha, IFN gamma and iNOS. These activities suggest that in addition to its thrombopoietic clinical use, rhIL-11 may also be valuable in the treatment of inflammatory diseases. The clinical utility of the anti-inflammatory properties of rhIL-11 is being investigated in patients with Crohn's disease, psoriasis and rheumatoid arthritis. These diseases are believed to be initiated and maintained by activated CD4+ Th1 cells in conjunction with activated macrophages.

Cardiac arrhythmia due to subclavian catheter fracture and embolization.

Implanted venous access devices (VADs) are being used with increasing frequency in clinical practice. The complication rate is low and VADs are generally accepted as being safe. Catheter fracture is a rare but potentially life-threatening complication that must be recognized and treated promptly. The present report discusses a case in which the clinical presentation led to early recognition of catheter fracture and embolization, and the subsequent safe removal of the VAD.

Recombinant human interleukin-11 does not modify biochemical parameters of bone remodeling and bone mineral density in adult ovariectomized rats.

Interleukin (IL)-11 stimulates osteoclast formation and inhibits osteoblast function in vitro and has been implicated in estrogen deficiency-induced bone loss. Herein we report the in vivo effect of recombinant human IL-11 (rHU-IL-11), administered s.c. in doses between 10 and 200 microg/kg/day for 6 weeks into 6-month-old rats after ovariectomy. There was no difference between vehicle-treated and rHu-IL-11 treated rats in the ovariectomy-induced increase in the urinary excretion of pyridinoline and deoxypyridinoline. Neither was there a significant effect of rHu-IL-11 on the plasma concentrations of osteocalcin and on bone mineral density (BMD) measured at a metaphyseal area of the distal femur after 6 weeks. At all dosages tested, rHu-IL-11 increased the femoral diaphyseal area. In conclusion, IL-11 has no deleterious in vivo effect on biochemical parameters of bone remodeling and BMD in estrogen-deficient rats.

Immune system-neuroendocrine dysregulation in spinal cord injury.

Multiple communicative pathways among the nervous, endocrine and immune systems facilitate physiological immunoregulation. Spinal cord injury (SCI) patients have decreased natural (NK cell) and adaptive (T cell) immune function and reduced blood levels of cellular adhesion molecules (CAMs) that participate in immune function and wound healing. We found decreased LFA-1 and VLA-4 on peripheral blood leukocytes in SCI patients and lower levels of CAMs in SCI patients with pressure ulcers than in those without them. SCI might affect immune cells and immune responsiveness by: (1) disrupting the outflow of signals from the sympathetic nervous system to lymphoid tissues and their blood vessels as well as the returning afferent signals from these tissues to the brain; (2) immunosuppression caused by the stressors affecting SCI patients; (3) interrupting returning signals to the CNS from the periphery thereby reducing facilitation of immunoregulatory CNS neurons and decreasing their activity; or a combination of all three. SCI patients may develop dysregulation of the sympathetic nervous system that is intimately involved in immune function. Chronic stress mediates immunosuppression by corticosteroids, catecholamines, endorphins and met-enkephalin. The hypothalamus coordinates the response to stress through the release of soluble products from the sympathetic nervous system and hypothalamic-pituitary-adrenal axis. Whereas the nervous and endocrine systems are not concerned with immunological specificity, they do influence the intensity, kinetics and localization of immune responses. Products of an activated immune system may generate feedback circuits capable of inhibiting, enhancing or regulating neuronal input. Immune system cells can produce neurologically active peptides including ACTH, CRF, growth hormone, thyrotropin, prolactin, human chorionic gonadotropin, endorphin, enkephalins, substance P, somatostatin and VIP. Cytokines are likely important mediators of the HPA response to immune stimuli.

Effect of thromboxane synthetase inhibition on platelet function and morphology during ovine pregnancy-induced hypertension.

Arterial blood pressure, serum fibrin/fibrinogen degratory products, plasma thromboxane B2, in vitro platelet aggregation, and platelet ultrastructure were studied in ten gravid ewes during fast-triggered ovine pregnancy-induced hypertension and subsequent administration of the thromboxane synthetase inhibitors CGS13080 and CGS12970. During the hypertensive period, blood pressure (p less than 0.005) and plasma thromboxane B2 levels (p less than 0.005) were significantly altered. Collagen-induced in vitro platelet aggregation lag times increased (p less than 0.01), and percent aggregation (p less than 0.05), primary (p less than 0.01), and secondary (p less than 0.005) aggregatory slopes decreased. Collagen also failed to induce aggregation in some ewes. Primary slopes of ADP-induced in vitro platelet aggregation decreased (p less than 0.01) during hypertension. Degranulation and open canalicular tubule system swelling were observed in platelets which produced abnormal or no aggregation response. However, these ultrastructural abnormalities did not necessarily correspond to hypertensive periods. Thromboxane synthetase inhibitor administration lowered blood pressure (p less than 0.005) and plasma thromboxane B2 levels (p less than 0.005). Abnormalities in collagen and ADP-induced platelet aggregation curves were also corrected, and ultrastructural abnormalities were not detected. Marked elevations in plasma thromboxane levels during ovine pregnancy-induced hypertension may have had an "exhaustive" effect on thrombocytes which was reversed by thromboxane synthetase inhibition.

Effect of long-term aspirin treatment on platelet adhesion to chronically damaged canine pulmonary arteries.

The effect of aspirin on platelet adhesion to chronically damaged pulmonary arteries was studied in 18 dogs. Chronic injury was produced in all dogs by infection with the canine heartworm Dirofilaria immitis (DI). Ten dogs were subjected to 4 days of chronic injury. Eight dogs were subjected to 30 days of chronic injury. Five of the 4 day injury and 4 of the 30 day injury dogs received aspirin daily; (325 mg/day orally). Aspirin was started 3 days prior to infection with DI. Pulmonary arteries were perfusion fixed in situ at physiologic pressure. The damaged pulmonary arteries were located by Evan's blue staining (2 ml/kg of 1% dye given one hr prior to perfusion) and prepared for scanning electron microscopy. Both groups of dogs with 4 day DI infection had monolayers of platelets adhered to exposed subendothelium. Aspirin treated dogs had enhanced platelet adhesion to damaged arteries. Aspirin treatment for 33 days reduced platelet adhesion. The damaged arteries of treated dogs infected with DI for 30 days had very few platelets adhering to the damaged surface. However, non-treated dogs subjected to 30 days of infection had platelet adhesion equivalent to the 4 day non-treated infection group. These results suggest that although aspirin is ineffective in preventing platelet adhesion in short term therapy it is effective when given for longer time periods. This inhibitory effect may occur due to platelet membrane changes rather than because of aspirin inhibition of cyclooxygenase.

Smooth muscle proliferation in chronically injured canine pulmonary arteries is reduced by a potent platelet aggregation inhibitor U-53,059.

Dirofilaria immitis (DI) infection chronically injures canine pulmonary arteries. This injury produces endothelial cell loss, platelet/leukocyte adhesion, and smooth muscle proliferation. In the present study we assessed the effect of the cyclooxygenase inhibitor, U-53,059, on platelet function, platelet kinetics, coagulation, and smooth muscle proliferation in DI infected dogs. Platelet aggregation to the combination of arachidonic acid/ADP was significantly inhibited by U-53,059. Coagulation and hematologic parameters were not effected by either DI infection or U-53,059 treatment. Platelet survival and the number of platelet dense granules were reduced in DI infection. Quantification of the lesions demonstrated that U-53,059 reduced both severity and density compared to non-treated dogs. U-53,059 is a potent and effective inhibitor of platelet aggregation which modifies smooth muscle proliferation produced by chronic vascular injury.

Pharmacokinetics of recombinant factor IX after intravenous and subcutaneous administration in dogs and cynomolgus monkeys.

Hemophilia B therapy requires intravenous (IV) infusions of large volumes of factor IX due to the low concentration of factor IX in concentrates (approximately 100 IU/mL). High concentration recombinant factor IX (rFIX) could be a significant advance since it would reduce the large volumes necessary for IV dosing and allow for low-volume subcutaneous (SC) administration. To evaluate high concentration factor IX, we produced formulations with either 2,000 or 4,000 IU/mL and studied the SC bioavailability in beagle dogs, cynomolgus monkeys and hemophilia B dogs along with efficacy in hemophilia B dogs. Beagle dog SC bioavailability was 86.4% using a 2000 IU/mL formulation and 77.0% using a 4000 IU/mL formulation. Monkey bioavailability of a 4000 IU/mL formulation of rFIX was 34.8%. A single SC administration of 200 IU/kg (4000 IU/mL) of rFIX to hemophilia B dogs, produced factor IX clotting activity above 5% for 5 days with a bioavailability of 48.6%. High concentration SC rFIX has an acceptable pharmacokinetic profile in monkeys and dogs, and produces a sustained FIX activity in hemophilic dogs.

Evaluation of recombinant human factor IX: pharmacokinetic studies in the rat and the dog.

The pharmacokinetics of intravenously administered recombinant human factor IX (rhFIX) were studied in Sprague-Dawley rats and Beagle dogs. Rats received rhFIX (50 IU/kg once daily) for 28 days, and the plasma half-life was 5 h. Anti-Human Factor IX serum antibody levels were found in only 1 of 12 rats. The pharmacokinetic profiles of rhFIX or Mononine, a purified human plasma-derived factor IX, after single 100 IU/kg i.v. doses in dogs, were similar. Peak plasma concentrations of rhFIX and Mononine were 4-5 micrograms/ml. The mean plasma half-lives were 13.2 +/- 1.6 h for rhFIX and 13.3 +/- 1.6 h for Mononine. Dogs also received rhFIX (40 IU/kg i.v., daily) for 28 days or Mononine (40 IU/kg i.v. daily) for 14 days. Anti-human Factor IX serum antibody levels were determined for each compound. Pharmacokinetic half-lives decreased in these treated dogs which developed antihuman Factor IX antibodies. The antibody responses in 28 day rhFIX (40 IU/kg) dogs were similar to 14 day Mononine (40 IU/kg) dogs.

Intratracheal administration of recombinant human factor IX (BeneFix) achieves therapeutic levels in hemophilia B dogs.

The purpose of this paper was to establish proof of concept for administration of human recombinant F.IX (rF.IX) by inhalation for therapy of hemophilia B. The pharmacokinetics of intratracheal (IT) administration of rF.IX was studied in nine hemophilia B dogs randomized into 3 groups that received 200 IU/kg IT, 1,000 IU/kg IT, or 200 IU/kg intravenously (IV). IT rF.IX produced therapeutic levels of F.IX antigen and activity and the pharmacokinetic parameters were consistent with a slow release from a depot site within the lungs. Bioavailability compared to IV administration was 11% for 200 IU/kg IT and 4.9% for 1,000 IU/kg. The whole blood clotting time began to shorten at 2 h but F.IX bioactivity was not detected until 8 h post infusion in both IT groups. In all groups, F.IX activity was detected through 72 h post administration. These data demonstrate that biologically active rF.IX can reach the systemic circulation when given IT. Aerosolization of rF.IX may provide a needle-free therapeutic option for delivery of rF.IX to hemophilia B patients.

Immunolocalization of tumour necrosis factor-alpha (TNF-alpha) in the placental bed of normotensive and hypertensive human pregnancies.

To identify tumour necrosis factor (TNF)-alpha immunopositive cells, third trimester human placental bed biopsies were selected from nine normotensive control women, 16 severely pre-eclamptic patients and seven patients with pre-existing hypertension with superimposed pre-eclampsia. In addition, five first and early second trimester specimens were included in the study. Immunostaining was performed with a mouse IgG1 monoclonal antibody (J1D9) reactive specifically with human TNF-alpha (1:300 ascitic fluid), using a biotin-streptavidin-peroxidase technique. Variable staining of stromal cells was noted in all biopsies. Specimens of early pregnancy showed marked immunostaining for TNF-alpha on proliferating tips of anchoring villi, invasive interstitial cytotrophoblast (but not the multinuclear giant cells), and endovascular trophoblast invading the spiral arteries. At term, weak staining was found in trophoblast incorporated within spiral artery walls. In biopsies from pre-eclamptic patients, spiral arteries without physiological change showed very little staining except in atherotic vessels where the infiltrated lipophages often showed intense immunolabelling. The marked presence of TNF-alpha in extravillous cytotrophoblast of young specimens is suggestive of a role in early invasion. Immunostaining of foam cells in non-invaded spiral arteries in pre-eclampsia at or near-term indicates a potential role of this cytokine in the development of atherotic lesions.

Downregulation of placental syncytin expression and abnormal protein localization in pre-eclampsia.

Development of placentation and successful pregnancy depend on co-ordinated interactions between the maternal decidua and myometrium, and the invasive properties of the fetal trophoblast. Syncytin, a protein encoded by the envelope gene of a recently identified human endogenous defective retrovirus, HERV-W, is highly expressed in placental tissue. Previously, we have shown that the major site of syncytin expression is the placental syncytiotrophoblast, a fused multinuclear syncytium originating from cytotrophoblast cells. Here we present the first evidence that in pre-eclampsia, syncytin gene expression levels are dramatically reduced. Additionally, immunohistochemical examination of normal placentae and placentae from women with pre-eclampsia reveals that the syncytin protein in placental tissue from women with pre-eclampsia is localized improperly to the apical syncytiotrophoblast microvillous membrane as opposed to its normal location on the basal syncytiotrophoblast cytoplasmic membrane. Our previous results suggest that syncytin may mediate placental cytotrophoblast fusion in vivo and may play an important role in human placental morphogenesis. The present study suggests that altered expression of the syncytin gene, and altered cellular location of its protein product, may contribute to the aetiology of pre-eclampsia.

Evaluation of the safety of recombinant P-selectin glycoprotein ligand-immunoglobulin G fusion protein in experimental models of localized and systemic infection.

P-selectin is a major component in the early interaction between platelets, endothelial cells, and inflammatory cells in the initial phases of the innate immune response. The major ligand for P-selectin is P-selectin glycoprotein ligand-1 (PSGL-1) and this ligand is expressed on the surface of monocyte, lymphocyte, and neutrophil membranes. A truncated form of recombinant human P-selectin glycoprotein ligand-1 has been covalently linked to immunoglobulin G (rPSGL-Ig) and this fusion peptide functions as a competitive inhibitor of PSGL-1. As an inhibitor of neutrophil-endothelial cell adherence, rPSGL-Ig is in early clinical development for the treatment of ischemia reperfusion injury. To determine the potential for deleterious effects from inhibition in P-selectin-mediated neutrophil attachment in the presence of bacterial infection, the effects of therapeutic doses of rPSGL-Ig were tested in three standard laboratory sepsis models. The experimental models included: the murine systemic Listeria monocytogenes infection model, the Pseudomonas aeruginosa bacteremia model in neutropenic rats, and the cecal ligation and puncture (CLP)-induced peritonitis model in rats. Recombinant human PSGL-Ig had no adverse effects on mortality or immune clearance in systemic bacterial infection in any of the three infection models. The PSGL-1 inhibitor did significantly decrease local neutrophil infiltration and bacterial clearance in the peritoneum following CLP, but this did not increase the systemic levels of proinflammatory cytokines, the quantitative levels of bacteremia, or the overall mortality rate following CLP. The results indicate that rPSGL-Ig did not exacerbate infection in these experimental sepsis models.

Mechanism and amelioration of recombinant human interleukin-11 (rhIL-11)-induced anemia in healthy subjects.

Recombinant human interleukin-11 (rhIL-11), or Neumega rhIL-11 Growth Factor, is a recombinant cytokine that stimulates megakaryocytopoiesis, increases platelet production, and also has shown anti-inflammatory and immune-modulating activity. Mild, reversible anemia was the most common adverse event observed in clinical studies and was demonstrated to be related to hemodilution. The purpose of this study was to examine the renal mechanisms of the rhIL-11-induced volume retention and devise a possible therapeutic intervention to ameliorate this effect. Eighteen healthy volunteers (9 male and 9 female) on a controlled sodium (180 mEq/day) and potassium (120 mEq/day) diet were randomized to one of six treatment sequences in a three-period crossover design. Each subject received 25 micrograms/kg IL-11 s.c. once daily, 25 micrograms/kg IL-11 s.c. once daily + Maxzide-25 twice daily, or placebo for 7 days in a crossover design. There was a 14-day washout period between treatment periods. Renal clearance parameters indicated that mean sodium excretion was decreased compared to placebo within 8 hours after dosing with rhIL-11, with these results reaching statistical significance 8 to 16 hours postdose (p < 0.01). The cumulative sodium excretion (mEq +/- SD) over the 7-day treatment period for each respective treatment group was the following: rhIL-11 = 833 +/- 154, rhIL-11 + Maxzide-25 twice daily = 1114 +/- 178, and placebo = 982 +/- 193 (p < 0.01). Hemoglobin concentration and hematocrit values, used as indicators of hemodilution, decreased in the rhIL-11-treated group as compared to the baseline and placebo groups (p < 0.01). Concurrent dosing with Maxzide-25 twice daily reduced the rhIL-11-associated hemodilution by about 50%.

Effect of recombinant human interleukin-11 on motilin and substance P release in normal and inflamed rabbits.

Recombinant human interleukin-11 (rhIL-11) normalizes depressed smooth muscle tension generation towards motilin and substance P (SP) in rabbits with colitis. The aim of this paper was to evaluate the effect of rhIL-11 treatment on motilin and SP release which could have an effect on the contractility changes. Rabbits received 4, 40, 72 or 720 microg/kg rhIL-11 s.c. or saline, 1 h later a continuous s.c. administration of rhIL-11 was started with or without the induction of colitis (135 mg/kg TNBS) for 5 days. Motilin and SP levels were measured by RIA, motilin mRNA expression by RT-PCR. TNBS-colitis did not affect plasma motilin levels but increased the motilin content of the duodenal mucosa 1.7-fold. rhIL-11 treatment dose-dependently increased plasma motilin levels (720 microg/kg day: 3.5-fold) and the motilin content of the duodenal mucosa (720 microg/kg day: 3.0-fold). The effects of rhIL-11 were similar in normal rabbits and were accompanied by an increased motilin mRNA expression. TNBS-colitis decreased plasma SP levels 2.7-fold and the SP content in the colonic muscle layer 7.1-fold. The decrease in the muscle layer, but not in the plasma, was normalized by rhIL-11 treatment. In normal rabbits, rhIL-11 caused a decrease in plasma SP levels, but had no effect on the tissue content of SP. In conclusion, treatment of inflamed or normal rabbits with rhIL-11 increases plasma and tissue levels of motilin in the duodenal mucosa via an increased expression of motilin in the endocrine cells and induces the release of SP from extrinsic neurons. These changes do not explain the beneficial effect of rhIL-11 on the lowered contractility in inflamed rabbits although a change in balance of neuropeptides may influence gastro-intestinal inflammation.

Interleukin-11.

Interleukin-11 (IL-11) is a cytokine which interacts with a variety of haemopoietic and non-haemopoietic cell types. Recombinant human IL-11 (rhIL-11; oprelvekin) is produced in Escherichia coli and differs from the naturally occurring protein only in the absence of the amino-terminal proline residue. In synergy with other factors, rhIL-11 stimulates the growth of myeloid, erythroid, and megakaryocyte progenitor cells in vitro. In vivo, rhIL-11 is active in mice, rats, dogs, guinea pigs, hamsters and non-human primates, where the principal activity measured was stimulation of megakaryocytopoiesis and thrombopoiesis. rhIL-11 has shown benefit in 2 clinical trials by significantly reducing severe chemotherapy-induced thrombocytopenia. In addition to its thrombopoietic activity, rhIL-11 has also shown activity in models of acute gastrointestinal mucosal damage. rhIL-11 enhanced survival in mice following cytoablative therapy and in a hamster model of chemotherapy-induced oral mucositis, where treatment with rhIL-11 was associated with decreased mucosal damage, accelerated healing and reduced numbers of deaths. rhIL-11 is currently in clinical trials for the treatment of chemotherapy-induced mucositis. In rat models of acute colonic injury and inflammatory bowel disease, rhIL-11 treatment reduced intestinal mucosal damage and alleviated clinical signs. rhIL-11 has direct effects on activated macrophages to reduce the production of pro-inflammatory mediators. In animal models of endotoxaemia, rhIL-11 treatment reduced serum levels of pro-inflammatory cytokines and blocked hypotension. rhIL-11 increased survival in models of Gram-negative sepsis and toxic shock. Based on these studies, rhIL-11 is currently in clinical trials for treatment of Crohn's disease. Other inflammatory conditions are being further evaluated. Mechanistically, rhIL-11 functions at many levels to control inflammation, ameliorate tissue damage and maintain haemostasis in the face of trauma or infection. rhIL-11 has direct effects on hepatocytes, inducing the production of acute phase reactant proteins, haem oxygenase and tissue inhibitor of metalloproteinase-1 (TIMP-1). TIMP-1 expression can also be induced in synoviocytes and chondrocytes by treatment with rhIL-11. rhIL-11 administration has been associated with increased plasma levels of von Willebrand factor and fibrinogen. rhIL-11 treatment potentially offers multiple benefits for cancer chemotherapy patients, such as prevention of thrombocytopenia, gastrointestinal epithelial protection and subsequent reduction of mucositis, and amelioration of inflammatory complications. In addition, rhIL-11 is being evaluated further in the treatment of inflammatory disorders such as inflammatory bowel disease, rheumatoid arthritis and sepsis.