Norepinephrine Dysregulates the Immune Response and Compromises Host Defense during Sepsis.

Rationale: Sepsis is characterized by a dysregulated immune response to infection. Norepinephrine, the cornerstone vasopressor used in septic shock, may contribute to immune dysregulation and impact host defense.Objectives: To investigate effects of norepinephrine and the alternative vasopressor vasopressin on the immune response and host defense.Methods: Leukocytes from six to nine donors were stimulated in the presence or absence of norepinephrine and vasopressin. A total of 190 C57BL/6J mice received a continuous infusion of norepinephrine or vasopressin via microosmotic pumps and were challenged with LPS or underwent cecal ligation and puncture. Thirty healthy volunteers were randomized to a 5-hour infusion of norepinephrine, vasopressin, or saline and intravenously challenged with LPS. The relationship between the norepinephrine infusion rate and the use of ß-blockers and plasma cytokines was assessed in 195 patients with septic shock.Measurements and Main Results: Norepinephrine attenuated the production of proinflammatory mediators and reactive oxygen species and augmented antiinflammatory IL-10 production both in vitro and in LPS-challenged mice. Norepinephrine infusion during cecal ligation and puncture resulted in increased bacterial dissemination to the spleen, liver, and blood. In LPS-challenged volunteers, norepinephrine enhanced plasma IL-10 concentrations and attenuated the release of the proinflammatory cytokine IFN-γ-induced protein 10. Vasopressin exerted no immunomodulatory effects across these experimental setups. In patients, higher norepinephrine infusion rates were correlated with a more antiinflammatory cytokine balance, whereas ß-blocker use was associated with a more proinflammatory cytokine balance.Conclusions: Norepinephrine dysregulates the immune response in mice and humans and compromises host defense. Therefore, it may significantly contribute to sepsis-induced immunoparalysis, whereas vasopressin does not have untoward immunologic effects.

A peptide vaccine targeting angiotensin II attenuates the cardiac dysfunction induced by myocardial infarction.

A peptide vaccine targeting angiotensin II (Ang II) was recently developed as a novel treatment for hypertension to resolve the problem of noncompliance with pharmacotherapy. Ang II plays a crucial role in the pathogenesis of cardiac remodeling after myocardial infarction (MI), which causes heart failure. In the present study, we examined whether the Ang II vaccine is effective in preventing heart failure. The injection of the Ang II vaccine in a rat model of MI attenuated cardiac dysfunction in association with an elevation in the serum anti-Ang II antibody titer. Furthermore, any detrimental effects of the Ang II vaccine were not observed in the rats that underwent sham operations. Treatment with immunized serum from Ang II vaccine-injected rats significantly suppressed post-MI cardiac dysfunction in MI rats and Ang II-induced remodeling-associated signaling in cardiac fibroblasts. Thus, our present study demonstrates that the Ang II vaccine may provide a promising novel therapeutic strategy for preventing heart failure.

Potentially Inadvertent Immunomodulation: Norepinephrine Use in Sepsis.

Septic shock is a major cause of death worldwide and a considerable healthcare burden in the twenty-first century. Attention has shifted from damaging effects of the proinflammatory response to the detrimental role of antiinflammation, a phenomenon known as sepsis-induced immunoparalysis. Sepsis-induced immunoparalysis may render patients vulnerable to secondary infections and is associated with impaired outcome. The immunoparalysis hypothesis compels us to reevaluate the current management of septic shock and to assess whether we are inadvertently compromising or altering the host immune response. In this perspective, we discuss the potential detrimental role of norepinephrine, the cornerstone treatment for septic shock, in sepsis-induced immunoparalysis. We provide a short overview of the current understanding of the immunologic pathophysiology of sepsis, followed by a detailed description of the immunomodulatory effects of norepinephrine and alternative vasopressors. We conclude that although the development of novel therapies aimed at reversing immunoparalysis is underway, the use of norepinephrine may aggravate the development, extent, and duration of sepsis-induced immunoparalysis. Current in vitro and animal data indicate that norepinephrine treatment exerts immunosuppressive and bacterial growth-promoting effects and may increase susceptibility toward infections. However, evidence in humans is circumstantial, as immunologic effects of norepinephrine have not been investigated properly in experimental or clinical studies. Alternatives such as vasopressin/selepressin, angiotensin II, and phenylephrine could have a fundamental advantage over norepinephrine with respect to their immunologic properties. However, also for these agents, in vivo immunologic data in humans are largely lacking. As such, human studies on the immunomodulatory properties of norepinephrine and viable alternatives are highly warranted.

Endothelium--role in regulation of coagulation and inflammation.

By its strategic position at the interface between blood and tissues, endothelial cells control blood fluidity and continued tissue perfusion while simultaneously they direct inflammatory cells to areas in need of defense or repair. The endothelial response depends on specific tissue needs and adapts to local stresses. Endothelial cells counteract coagulation by providing tissue factor and thrombin inhibitors and receptors for protein C activation. The receptor PAR-1 is differentially activated by thrombin and the activated protein C/EPCR complex, resulting in antithrombotic and anti-inflammatory effects. Thrombin and vasoactive agents release von Willebrand factor as ultra-large platelet-binding multimers, which are cleaved by ADAMTS13. Platelets can also facilitate leukocyte-endothelium interaction. Platelet activation is prevented by nitric oxide, prostacyclin, and exonucleotidases. Thrombin-cleaved ADAMTS18 induces disintegration of platelet aggregates while tissue-type plasminogen activator initiates fibrinolysis. Fibrin and products of platelets and inflammatory cells modulate the angiogenic response of endothelial cells and contribute to tissue repair.

Endogenous cardiotonic steroids in chronic renal failure.

BACKGROUND: Previous reports demonstrated that digitalis-like cardiotonic steroids (CTS) contribute to the pathogenesis of end-stage renal disease. The goal of the present study was to define the nature of CTS in patients with chronic kidney disease (CKD) and in partially nephrectomized (PNx) rats. METHODS: In patients with CKD and in healthy controls, we determined plasma levels of marinobufagenin (MBG) and endogenous ouabain (EO) and erythrocyte Na/K-ATPase activity in the absence and in the presence of 3E9 anti-MBG monoclonal antibody (mAb) and Digibind. Levels of MBG and EO were also determined in sham-operated Sprague-Dawley rats and in rats following 4 weeks of PNx. RESULTS: In 25 patients with CKD plasma, MBG but not EO was increased (0.86 ± 0.07 versus 0.28 ± 0.02 nmol/L, P < 0.01) and erythrocyte Na/K-ATPase was inhibited (1.24 ± 0.10 versus 2.80 ± 0.09 µmol Pi/mL/h, P < 0.01) as compared to that in 19 healthy subjects. Ex vivo, 3E9 mAb restored Na/K-ATPase in erythrocytes from patients with CKD but did not affect Na/K-ATPase from control subjects. Following chromatographic fractionation of uremic versus normal plasma, a competitive immunoassay based on anti-MBG mAb detected a 3-fold increase in the level of endogenous material having retention time similar to that seen with MBG. A similar pattern of CTS changes was observed in uremic rats. As compared to sham-operated animals, PNx rats exhibited 3-fold elevated levels of MBG but not that of EO. CONCLUSIONS: In chronic renal failure, elevated levels of a bufadienolide CTS, MBG, contribute to Na/K-ATPase inhibition and may represent a potential target for therapy.

[Case report : Severe anaphylactic shock followed by positive skin-prick-test to multiple vasoconstrictors].

A 71-year-old woman was scheduled for revision of total hip replacement under general anesthesia. Twenty minutes before entering the operating room, slight urticaria was caused by drop infusion of cefotiam. It was stopped immediately and the patient entered the operating room without any symptoms. Anesthesia was induced and maintained with sevoflurane and remifentanil. After 3 hours, systolic arterial pressure (SAS) dropped to 80 mmHg. Injecting of ephedrine 8 mg was not effective, and we injected a total of 3 mg of methoxamine. Then SAS dropped to 50 mmHg. We injected epinephrine 0.2 mg twice and also started continuous infusion of norepinephrine. Severe skin rash indicated that anaphylactic reaction had occurred. About 20 minutes after starting norepinephrine, the SAS was stabilized. We decided to stop the operation, and the patient was moved to the intensive care unit (ICU). A few hours after entering the ICU, she was extubated and moved to the general ward next day. Skin-prick-tests performed 14 days later indicated that she was allergic to ephedrine, methoxamine, epinephrine, dopamine and a few more drugs.

Interleukin-1beta attenuates endothelin B receptor-mediated airway contractions in a murine in vitro model of asthma: roles of endothelin converting enzyme and mitogen-activated protein kinase pathways.

BACKGROUND: Asthma is a chronic airway disease, known to involve several inflammatory mediators. Little is known about how these mediators interact in order to produce or attenuate even basic features of the disease, like airway hyper-reactivity and remodelling. Endothelin-1 (ET-1) and IL-1beta are two mediators suggested to play important roles in the induction of airway inflammation. OBJECTIVE: To investigate the interactions between ET-1 and IL-1beta, using a novel in vitro model of asthma, focusing on airway smooth muscle contractility. METHODS: Isolated murine tracheal segments were cultured from 1 to 8 days in the absence and presence of IL-1beta. The subsequent contractile responses to sarafotoxin 6c (S6c) (selective agonist for ETB receptor) and sarafotoxin 6b (S6b) (ETA and ETB receptor agonist) were recorded by a myographs system. In all experiments, ETB receptors were desensitized before the contractile response to S6b was recorded. Thus, the response to S6b is only mediated by ETA receptors in the present study. The mRNA expressions for ET-1 and endothelin (ET) receptors were quantified by real-time PCR. RESULTS: Organ culture in the presence of IL-1beta attenuated the maximal contraction induced by S6c, but not S6b. This reduction was concentration-dependent and was significant after 2, 4 and 8 days of culture. To investigate the mechanisms behind this, inhibitors for endothelin converting enzyme (ECE) phosphoramidon, c-JUN N-terminal kinase (JNK) SP600125, extracellular-signal-regulated kinase 1/2(ERK 1/2) PD98059 and p38 pathway SB203580 were used. Individually, SP600125 and PD98059, but not SB203580, could partly reverse the reduction induced by IL-1beta. An additional effect was obtained when SP600125 and PD98059 were combined. The mRNA expressions for ET-1 and ETB receptor were up- and down-regulated, respectively, by IL-1beta. CONCLUSION: Presence of IL-1beta in the airways attenuate the contractile response mediated via ETB receptors, an effect dependent on ECE, JNK and ERK 1/2 pathways.

Is chronic fatigue syndrome an autoimmune disorder of endogenous neuropeptides, exogenous infection and molecular mimicry?

Chronic fatigue syndrome is a disorder characterised by prolonged fatigue and debility and is mostly associated with post-infection sequelae although ongoing infection is unproven. Immunological aberration is likely and this may prove to be associated with an expanding group of vasoactive neuropeptides in the context of molecular mimicry and inappropriate immunological memory. Vasoactive neuropeptides including vasoactive intestinal peptide (VIP) and pituitary adenylate activating polypeptide (PACAP) belong to the secretin/glucagon superfamily and act as hormones, neurotransmitters, immune modulators and neurotrophes. They are readily catalysed to smaller peptide fragments by antibody hydrolysis. They and their binding sites are immunogenic and are known to be associated with a range of autoimmune conditions. Vasoactive neuropeptides are widely distributed in the body particularly in the central, autonomic and peripheral nervous systems and have been identified in the gut, adrenal gland, reproductive organs, vasculature, blood cells and other tissues. They have a vital role in maintaining vascular flow in organs, and in thermoregulation, memory and concentration. They are co-transmitters for acetylcholine, nitric oxide, endogenous opioids and insulin, are potent immune regulators with primarily anti-inflammatory activity, and have a significant role in protection of the nervous system to toxic assault, promotion of neural development and the maintenance of homeostasis. This paper describes a biologically plausible mechanism for the development of CFS based on loss of immunological tolerance to the vasoactive neuropeptides following infection, significant physical exercise or de novo. It is proposed that release of these substances is accompanied by a loss of tolerance either to them or their receptor binding sites in CFS. Such an occurrence would have predictably serious consequences resulting from compromised function of the key roles these substances perform. All documented symptoms of CFS are explained by vasoactive neuropeptide compromise, namely fatigue and nervous system dysfunction through impaired acetylcholine activity, myalgia through nitric oxide and endogenous opioid dysfunction, chemical sensitivity through peroxynitrite and adenosine dysfunction, and immunological disturbance through changes in immune modulation. Perverse immunological memory established against these substances or their receptors may be the reason for the protracted nature of this condition. The novel status of these substances together with their extremely small concentrations in blood and tissues means that clinical research into them is still in its infancy. A biologically plausible theory of CFS causation associated with vasoactive neuropeptide dysfunction would promote a coherent and systematic approach to research into this and other possibly associated disabling conditions.

Is sudden infant death syndrome (SIDS) an autoimmune disorder of endogenous vasoactive neuropeptides?

Sudden infant death syndrome (SIDS) remains a perplexing diagnosis with conflicting laboratory investigation and lack of a biologically plausible aetiology. Investigations into the endogenous vasoactive neuropeptides, including pituitary adenylate cyclase-activating polypeptide (PACAP) and vasoactive intestinal peptide (VIP) are revealing the critical role these substances have in homeostasis including thermo- and cardiovascular regulation. For example, studies in PACAP receptor-deficient mice have revealed sudden neonatal death attributed to respiratory control defects, possibly due to mutations in genes encoding components of PACAP signalling pathways. PACAP and VIP belong to the secretin/glucagon superfamily of hormones and function as vasoactive neuropeptides. They act as hormones, neurotransmitters, immune modulators and neurotrophes. They are readily catalysed to small peptide fragments. They and their binding sites are immunogenic and are known to be associated with a range of autoimmune conditions. Vasoactive neuropeptides have a known role in thermoregulation and deficiency states are associated with higher neonatal death rates in rats. PACAP plays a significant role in carbohydrate and lipid metabolism and impairment of functioning has potentially serious consequences. It is postulated PACAP and VIP receptors in brain may become compromised through autoimmune phenomena resulting in cardio-respiratory dysfunction and death. This paper discusses the potential role of certain vasoactive neuropeptides in causing autoimmune responses in susceptible infants predisposing them to SIDS.

Is Gulf War Syndrome an autoimmune disorder of endogenous neuropeptides, exogenous sandfly maxadilan and molecular mimicry?

Gulf War Syndrome (GWS) remains a contentious diagnosis with conflicting laboratory investigation and lack of a biologically plausible aetiology. This paper discusses the potential role of maxadilan, a potent sandfly vasoactive peptide, in causing autoimmune responses in susceptible individuals through possible molecular mimicry with pituitary adenylate cyclase activating polypeptide (PACAP) and the PAC1R receptor. Gulf War Syndrome may share some causative pathology with Chronic Fatigue Syndrome (CFS), a disorder characterised by prolonged fatigue and debility mostly associated with post-infection sequelae although ongoing infection is unproven. Immunological aberration associated with an expanding group of vasoactive neuropeptides in the context of molecular mimicry and inappropriate immunological memory has been recently raised as possible cause of CFS. Vasoactive neuropeptides act as hormones, neurotransmitters, immune modulators and neurotrophes. They are readily catalysed to small peptide fragments. They and their binding sites are immunogenic and are known to be associated with a range of autoimmune conditions. Maxadilan, while not sharing substantial sequence homology with PACAP is a known agonist of the PACAP specific receptor (PAC1R) and therefore emulates these functions. Moreover a specific amino acid sequence peptide deletion within maxadilan converts it to a PACAP receptor antagonist raising the possibility of this substance provoking a CFS like response in humans exposed to it. This paper describes a biologically plausible mechanism for the development of a GWS-like chronic fatigue state based on loss of immunological tolerance to the vasoactive neuropeptide PACAP or its receptor following bites of the sandfly Phlebotomus papatasi and injection of the vasodilator peptide maxadilan. Exacerbation of this autoimmune response as a consequence of recent or simultaneous multiple vaccination exposures deserves further investigation. While the possible association between the relatively recently discovered vasoactive neuropeptides and chronic fatigue conditions has only recently been reported in the literature, this paper explores links for further research into GWS and CFS.

Is fibromyalgia an autoimmune disorder of endogenous vasoactive neuropeptides?

Fibromyalgia (FM) is a disorder characterised by soft tissue pain, disturbance of function an often prolonged course and variable fatigue and debility. A clearly defined aetiology has not been described. This paper proposes that immunological aberration is likely and this may prove to be associated with an expanding group of novel vasoactive neuropeptides. Vasoactive neuropeptides act as hormones, neurotransmitters, immune modulators and neurotrophes. They are readily catalysed to small peptide fragments. They and their binding sites are immunogenic and are known to be associated with a range of autoimmune conditions. They have a vital role in maintaining vascular flow in organs, and in thermoregulation, memory and concentration. They are co-transmitters for acetylcholine, are potent immune regulators with primarily anti-inflammatory activity, and have a significant role in protection of the nervous system to toxic assault and the maintenance of homeostasis. Failure of these substances has adverse consequences for homeostasis. This paper describes a biologically plausible mechanism for the development of FM based on loss of immunological tolerance to the vasoactive neuropeptides. The proposed mechanism of action is that inflammatory cytokines are provoked by tissue injury from unaccustomed exercise or physical injury. This may trigger a response by certain vasoactive neuropeptides which then undergo autoimmune dysfunction as well as affecting their receptor binding sites. The condition may potentially arise de novo perhaps in genetically susceptible individuals. FM is postulated to be an autoimmune disorder and may include dysfunction of purine nucleotide metabolism and nociception.

Is osteoporosis linked to vaccinations and Gulf War Syndrome?

Gulf War Syndrome (GWS) remains a contentious diagnosis with conflicting laboratory investigations and lack of a biologically plausible aetiology. Assertions have been made that GWS may be the result of vaccinations given to serving military personnel in the Persian Gulf and may be associated with osteoporosis. Calcitonin gene related protein (CGRP) is a vasoactive neuropeptide that is synthesised in conjunction with calcitonin gene expression. Vasoactive neuropeptides act as hormones, neurotransmitters, immune modulators and neurotrophes. They are readily catalysed to small peptide fragments. They and their binding sites are immunogenic and are known to be associated with a range of autoimmune conditions. This paper describes a biologically plausible mechanism for the development of osteoporosis in the context of GWS based on loss of immunological tolerance to the vasoactive neuropeptide CGRP or its receptors following a variety of antigenic events.

Interleukin-1 beta rapidly inhibits aortic endothelium-dependent relaxation by a DNA transcription-dependent mechanism.

OBJECTIVES: This study examined the effects of interleukin-1 beta on isometric tension development and relaxation in isolated rat aortic rings in response to the alpha-1 adrenergic agonist phenylephrine, the endothelium-dependent vasodilator acetylcholine, and the endothelium-independent vasodilator sodium nitroprusside. DESIGN: Randomized, controlled, paired design. SETTING: Animal laboratory within a university department of physiology. SUBJECTS Paired aortic thoracic aortic rings from specific pathogen-free Sprague-Dawley rats. INTERVENTIONS: Series I examined the potential for interleukin-1 beta to cause early arterial endothelial dysfunction. Paired aortic rings were incubated for 2 hrs with interleukin-1 beta or vehicle. Series II examined the potential for inhibition of DNA transcription to attenuate interleukin-1 beta-mediated endothelial dysfunction. Paired rings received either dactinomycin or vehicle before interleukin-1 beta incubation. Series III quantified the degree to which inhibition of DNA transcription inhibited early interleukin-1 beta-mediated endothelial dysfunction. Paired rings received either dactinomycin pretreatment followed by interleukin-1 beta incubation, or pretreatment and incubation with inert vehicles. Series IV assessed the effects of interleukin-1 beta on responsiveness to an exogenous nitric oxide donor, sodium nitroprusside, in the presence of the nitric oxide synthesis inhibitor N omega-nitro-L-arginine methyl ester. MEASUREMENTS AND MAIN RESULTS: Incubation with interleukin-1 beta for 2 hrs had no effect on contractile response but attenuated endothelium-dependent relaxation significantly relative to control. Dactinomycin pretreatment inhibited early interleukin-1 beta-mediated endothelial dysfunction. The combination of interleukin-1 beta and dactinomycin produced effects on endothelium-dependent relaxation that were not different from that seen in rings not exposed to interleukin-1 beta. Interleukin-1 beta attenuated responsiveness to sodium nitroprusside relative to control. CONCLUSIONS: Interleukin-1 beta causes an early impairment of endothelium-dependent vasorelaxation with an onset that precedes its effects on systemic contractility. This impairment occurs via a mechanism that is wholly or predominantly dependent on DNA transcription. The altered vasorelaxation induced by interleukin-1 beta is at least partly mediated by a reduction in nitric oxide responsiveness.

[Intradermal tests with vasomotor agents in chronic noninfectious rhinitis]. / Intradermalni testovi vazomotornim agensima kod hronicnog, neinfektivnog rinitisa.

The aim of this prospective study was to examine the skin reactivity to four vasomotor agents in chronic, non-infectious rhinitis patients, and to determine whether non-allergic rhinitis (NAR) patients differ from allergic rhinitis (AR) patients. Seventy four patients with NAR and 44 with AR were subjected to intradermal testing with papaverine (5 mg/ml), metacholine (0.02, 0.2 and 2.0 mg/ml), histamine (0.01, 0.1, 1.0 and 10.0 micrograms/ml), compound 48/80 (0.01, 0.1, 1.0 and 10.0 micrograms/ml) and saline. It was found that the frequency of pathological skin reactivity to papaverine in the patients with NAR (25/74) was significantly greater (p = 5.0 x 10(-3)) then in the patients with AR (4/44). No significant inter-group difference in skin reactivity to metacholine, histamine, compound 48/80 and saline was observed. The frequency of the total pathological skin reactivity to vasomotor agents, singly and in combinations, in patients with NAR (80%) was significantly greater (p = 0.03) than in patients with AR (61%). These findings suggested that the pathological skin reactivity to papaverine, metacholine, histamine and compound 48/80 was a feature of chronic, non-infectious rhinitis patients and it was more frequently associated with non-allergic than with the allergic etiology of rhinitis.

Angiotensin, inflammation, hypertension, and cardiovascular disease.

We are used to thinking of angiotensin (Ang) II as a regulatory hormone that stimulates constriction of vascular smooth muscle cells, aldosterone release from the adrenal gland, and sodium reabsorption in the renal tubule. We have also become accustomed to understanding that Ang II may be formed and may act locally as a chemokine that induces tyrosine phosphorylation, cell growth, hypertrophy, and differentiation. Viewing Ang II as an inflammatory molecule is stranger still. Nevertheless, recent evidence shows that Ang II is important in stimulating the production of reactive oxygen species and the activation of ancient inflammatory mechanisms. The nuclear factor kappaB (NF-kappaB) is pivotal to these processes. Activation of NF-kappaB stimulates the expression of a gene menagerie that is important to chemoattraction, expression of surface adhesion molecules, coagulation, and inflammation. In addition, Ang II has been shown to regulate cellular immune responses. It stimulates the proliferation of lymphocytes and contributes to their activation via calcineurin-related pathways. Knowledge of these mechanisms may provide additional therapeutic avenues.

[Intradermal tests using vasomotor agents in allergic rhinitis]. / Intradermisni testovi vazomotornim agensima u alergijskom rinitisu.

INTRODUCTION: Allergic rhinitis is characterised by nasal hyperactivity to specific and non-specific agents. For research purposes, non-specific nasal hyperactivity can be estimated by histamine and metacholine nasal challenge tests. At present, nasal challenge tests are not used for routine diagnosis of rhinitis. Wayoff and colleagues proposed the examination of the skin reactivity to papaverine, acetylcholine, histamine and compound 48/80 in rhinitis patients. Our previous study of skin reactivity to vasomotor agents, using modified skin tests of Wayoff and colleagues showed their clinical validation and usefulness for subclassification of patients with non-allergic rhinitis. To the present, there are only a few studies of skin reactivity to vasomotor agents in patients with allergic rhinitis. The aim of this study was to examine the skin reactivity to vasomotor agents of allergic rhinitis patients and determine whether the patients with allergic rhinitis differ from healthy subjects. METHODS: A prospective, controlled, in vivo study was carried out in 86 subjects: 44 patients with allergic rhinitis and 42 healthy subjects. Skin reactivity was examined by intradermal tests with different concentrations of papaverine, metacholine, histamine and compound 48/48. The non-specific skin reactivity to saline was also measured. Skin reactivity to intradermal test with different concentrations of papaverine, metacholine, histamine and compound 48/48 was measured, as well as specific skin reactivity to control saline solution. Pathological skin reactivity to vasomotor agents was defined as follows: hyporeactivity to papaverine (5 mg/mL), when wheal-and-flare skin reaction diameter was less than 15 mm; hyper-reactivity to metacholine (0.02, 0.2 and 2.0 mg/mL), when two of three wheal-and-flare skin reaction diameters were greater than 15, 25 and 31 mm, respectively; hyper-reactivity to histamine (0.01, 0.1, 1.0 and 10.0 mg/mL), when three of four wheal-and-flare skin reaction diameters were greater than 7, 13, 25 and 40 mm, respectively; and hyper-reactivity to compound 48/80 (0.01, 0.1, 1.0 and 10.0 mg/mL), when three of four wheal-and-flare skin reaction diameters were greater than 9, 16, 26 and 38 mm, respectively. RESULTS: The study included 86 subjects: 44 patients with allergic rhinitis and 42 healthy subjects. The control group of healthy subjects consisted of 22 females, aged from 18 to 35 yrs (mean 28 yrs), and 20 males, aged from 18 to 40 yrs (mean 28 yrs). The difference between the number [p(= 0.758) > 0.05] and age [p(= 0.990) > 0.05] of females and males was not significant. In the allergic rhinitis patients group, there were 23 females, aged from 18 to 54 yrs (mean 33 yrs) and 21 males, aged from 18 to 50 yrs (mean 36 yrs). The difference between the number [p(= 0.763) > 0.05] and age [p(= 0.558) > 0.05] of females and males was not significant. Frequencies of pathological skin reactivity to single vasomotor agents and saline in the control group of healthy subjects and in the allergic rhinitis patients group are shown in Table 1. In the control group, frequencies of normal skin reactivity to papaverine [p(= 1.8 x 10(-7)) < 0.01], metacholine [p(= 4.3 x 10(-6)) < 0.01], histamine [p(= 4.3 x 10(-6)) < 0.01], compound 48/80 [p(= 1.8 x 10(-7) < 0.01] and saline [p(= 6.9 x 10(-4)) < 0.01] were significantly greater than frequencies of pathological skin reactivity. In the patients group, frequencies of normal skin reactivity to papaverine [p(= 6.0 x 10(-8)) < 0.01] and saline [p(= 2.6 x 10(-3) < 0.01] were significantly greater, and to metacholine [p(= 0.016) < 0.05] were significantly greater than frequencies of pathological skin reactivity. In this group, the difference between frequencies of pathological skin reactivity to histamine [p(= 0.366) > 0.05] and compound 48/80 [p(= 0.070) > 0.05] were not significant. There was no significant intergroup difference for pathological skin reactivity to papaverine, metacholine and saline (Table 1). In the patients group frequencies of pathological skin reactivity to histamine and compound 48/80 were significantly higher than in the control group of healthy subjects. Frequencies of pathological skin reactivity to single vasomotor agents and in combinations in the control group of healthy subjects and in the allergic rhinitis patients group are shown in Table 2. The difference of pathological skin reactivity to single vasomotor agents and in combinations between the control group (14/42) and the allergic rhinitis patients group (27/44) was significant [p(= 0.017) < 0.05]. CONCLUSION: In routine evaluation of the rhinitis patients, skin tests with vasomotor agents have some advantages: these tests do not require special equipment, they are not time-consuming, they are easy to perform and simple for the interpretation of results. (ABSTRACT TRUNCATED)

PDE4 inhibition and a corticosteroid in chronically antigen exposed conscious guinea-pigs.

BACKGROUND: The physiological and pharmacological consequences of repeated aero-allergen challenge have not been previously characterized in conscious, sensitized guinea-pigs. OBJECTIVES: This study was undertaken to compare the effects of two anti-inflammatory compounds, dexamethasone and Ro 20- 1724, on an acute and chronic airway inflammation, in terms of airway function, reactivity and leucocyte infiltration. METHODS: Sensitized guinea-pigs received eight saline or ovalbumin (OvA) inhalation exposures over 4 weeks and either vehicle, the type 4 PDE inhibitor, Ro 20-1724 (3 mgkg(-1)), or dexamethasone (1.5 mg/kg(-1)), 30 min before and 6 h after each challenge. Airway function of the conscious animal (sGaw) was monitored over the duration of the first and final OvA challenge. Airway reactivity to the thromboxane mimetic, U46619, was also determined following the final OvA exposure as was the leucocyte infiltration. RESULTS: The first antigen challenge induced a large early (0-3h) and smaller late (17-24h) bronchoconstrictor response. Neither phase was affected by the drug treatments. The final OvA challenge induced early and late phase bronchoconstrictor responses but of similar magnitude. The late phase was also significantly prolonged. Ro 20-1724 and dexamethasone significantly attenuated both phases. Airway reactivity to the inhaled thromboxane mimetic, U46619, was also significantly enhanced at 120h after the final OvA exposure in contrast to the saline challenged group. This hyperreactivity was attenuated by Ro 20-1724 and dexamethasone. Bronchoalveolar lavage after repeated OvA exposures revealed eosinophilia which was attenuated by Ro 20-1724 and dexamethasone. CONCLUSIONS: This model demonstrates differential airway responses to acute and chronic antigen challenge. Repeated administration of dexamethasone and Ro 20-1724 with each OvA exposure attenuated all of the chronic inflammatory responses: early and late phase responses, hyperreactivity and eosinophilia.

Aminopeptidase A antiserum inhibits intracerebroventricular angiotensin II-induced dipsogenic and pressor responses.

Angiotensin II increases drinking and blood pressure when administered intracerebroventricularly. Intracerebroventricular injections of antiserum with anticatalytic activity against aminopeptidase A, the principal enzyme that metabolizes angiotensin II to angiotensin III, reduced the drinking and blood pressure responses to 10 pmol angiotensin II by 73% and 59%, respectively. APA antiserum had no effect on responses to angiotensin III administered intracerebroventricularly. A Glu-thiol inhibitor of aminopeptidase A also reduced angiotensin II-induced drinking. These results suggest that metabolism of angiotensin II to angiotensin III is an obligatory activation step for the brain angiotensin system.