Immune-mediated mechanisms in the pathogenesis of Hopkins syndrome.

Hopkins syndrome occurs after an acute asthma attack. An immune-mediated mechanism has been suggested. Immunoglobulin or methylprednisone pulse therapies comprise the most useful treatment. We describe a 3-year-old girl who developed severe weakness in her left arm, 7 days after an acute asthma attack. A complete blood count with autoimmune biomarkers, immunoglobulin profile, and virology study and magnetic resonance of the brain, spine, and brachial plexus produced normal results. In the cerebrospinal fluid, T lymphocytes comprised the predominant leukocyte population, and oligoclonal bands were positive. An electromyogram revealed a partial axonal lesion (normal motor nerve conduction velocity with low amplitude) of the axillary, musculocutaneus, and interosseous nerves of the left arm, with normal sensory nerve conduction and partial denervation. We began therapy with intravenous immunoglobulin for 5 consecutive days, repeated every 4 weeks for 2 months. Afterward, our patient recovered. This report contributes to understanding the role of immune-mediated mechanisms in the pathogenesis of this disease, and the importance of immunotherapy in its treatment.

Transcription factor E2-2 is an essential and specific regulator of plasmacytoid dendritic cell development.

Plasmacytoid dendritic cells (PDCs) represent a unique immune cell type specialized in type I interferon (IFN) secretion in response to viral nucleic acids. The molecular control of PDC lineage specification has been poorly understood. We report that basic helix-loop-helix transcription factor (E protein) E2-2/Tcf4 is preferentially expressed in murine and human PDCs. Constitutive or inducible deletion of murine E2-2 blocked the development of PDCs but not of other lineages and abolished IFN response to unmethylated DNA. Moreover, E2-2 haploinsufficiency in mice and in human Pitt-Hopkins syndrome patients was associated with aberrant expression profile and impaired IFN response of the PDC. E2-2 directly activated multiple PDC-enriched genes, including transcription factors involved in PDC development (SpiB, Irf8) and function (Irf7). These results identify E2-2 as a specific transcriptional regulator of the PDC lineage in mice and humans and reveal a key function of E proteins in the innate immune system.

[Correlations between external respiration function and the blood content of the immune system cells in hyperventilation ]. / Korreliatsionnye sviazi pokazatelei funktsii vneshnego dykhaniia i soderzhaniia v krovi kletok immunnoi sistemy pri giperventiliatsii.

Relations between hyperventilation, hyperventilation syndrome (HVS) and bronchial asthma (BA) are not finally established. This study modelled HVS in 92 volunteers to investigate HVS effect on external respiration function (ERF), immune status and hormonal and amino regulation. HVS was found to induce significant shifts in regulating systems (adrenergic, cholinergic, serotoninergic, conticosteroids) function and to alter correlations between ERF and blood levels of immune cells carrying various CD- and HLA-DR markers. The HVS model can be used for the study of HV role in immunopathogenesis of BA.

Neurokinins modulate hyperventilation-induced bronchoconstriction in canine peripheral airways.

This study was designed to test the hypotheses that (1) neurokinin (NK) receptor activity modulates hyperventilation-induced bronchoconstriction (HIB) in canine peripheral airways and (2) NK receptor activity is stimulated via hyperventilation-induced eicosanoid production and release. A bronchoscope was used in anesthetized dogs to record peripheral airway resistance (Rp); to test airway reactivity to NK A (NKA), substance P, and hypertonic saline; and to examine HIB before and after combined treatment with NK-1 (CP 99,994) and NK-2 (SR 48,968) receptor antagonists. Bronchoalveolar lavage fluid cells, prostaglandin D2, and cysteinyl leukotrienes from hyperventilated airways pretreated with either vehicle or NK antagonists were also measured. Pretreatment with NK-1 and NK-2 antagonists significantly attenuated HIB and the response to substance P, virtually abolished the response to NKA, and had little effect on the response to HS. Blockade of NK-1 and NK-2 receptors did not affect either the cell profiles or the mediator concentrations recovered in bronchoalveolar lavage fluid after hyperventilation. We conclude that NKs modulate the development of HIB and appear to do so via hyperventilation-induced eicosanoid production and release.

Heparin inhibits hyperventilation-induced late-phase hyperreactivity in dogs.

Inhalation of heparin attenuates hyperventilation-induced bronchoconstriction in humans and dogs. The purpose of this study was to determine whether heparin inhibits the late-phase response to hyperventilation, which is characterized by increased peripheral airway resistance (RP), eicosanoid mediator production, neutrophilic/ eosinophilic inflammation, and airway hyperreactivity (AHR) at 5 h after dry air challenge (DAC). Fiberoptic bronchoscopy was used to record RP and airway reactivity (DeltaRP) to aerosol and intravenous histamine before and 5 h after DAC. Bronchoalveolar lavage fluid (BALF) cells and eicosanoid mediators were also measured approximately 5 h after DAC. DAC of vehicle-treated bronchi resulted in late-phase airway obstruction (approximately 120% increase over baseline RP), inflammation, increased BALF concentrations of leukotriene (LT) C(4), LTD(4), and LTE(4) and prostaglandin (PG)D(2), and AHR. Pretreatment with aerosolized heparin attenuated late-phase airway obstruction by approximately 50%, inhibited eosinophil infiltration, reduced BALF concentrations of LTC(4), LTD(4), and LTE(4) and PGD(2), and abolished AHR. We conclude that heparin inhibits hyperventilation-induced late-phase changes in peripheral airway function, and does so in part via the inhibition of eosinophil migration and eicosanoid mediator production and release.

Heparin inhibits eicosanoid metabolism and hyperventilation-induced bronchoconstriction in dogs.

Inhalation of heparin, an anticoagulant, attenuates exercise- induced asthma (EIA) in human subjects. The purpose of this study was to determine if heparin inhibits hyperventilation-induced bronchoconstriction (HIB) in a canine model of EIA, and if its mode of action involves the inhibition of eicosanoid mediator production and release. We used a wedged bronchoscope technique to measure baseline peripheral airway resistance (Rp). We then performed either a 2-min or 5-min dry air challenge (DAC) by temporarily increasing from 200 to 2,000 ml/min the flow of 5% CO(2) in air used to ventilate a wedged sublobar segment. We compared HIB before and 60 min after aerosol treatment with either bacteriostatic water (BW) or heparin. We found that (1) heparin had no effect on baseline Rp, (2) BW did not alter the response to DAC, and (3) heparin reduced HIB by approximately 50-60%. On the basis of bronchoalveolar lavage fluid (BALF) cell analysis, heparin and BW caused acute infiltration of macrophages and eosinophils, and heparin increased the number of erythrocytes recovered immediately after DAC. Despite these acute inflammatory effects initiated prior to DAC, BALF mediator analyses revealed that pretreatment with heparin either attenuated or abolished hyperventilation-induced leukotriene, prostaglandin, and thromboxane release. Thus, our data provide direct evidence that inhaled heparin inhibits eicosanoid mediator production and release caused by hyperventilation with dry air, and significantly attenuates HIB.

Relationship between bronchial responsiveness to hyperventilation with cold and methacholine in asthma.

Twenty-seven subjects with asthma and normal baseline lung function were challenged with aerosols of methacholine (M) and by isocapnic hyperventilation with cold air (HV). Stimulus-effect relationships were determined for each provocational technique on separate days and were expressed as the dose required to produce a 20% fall in forced expired volume in 1 sec (FEV1) obtained by linear interpolation from log stimulus vs. response curves (PD20). Each stimulus was applied with a sufficient intensity to produce a 20% or greater fall in FEV1 in each subject. The PD20 for M correlated significantly with the PD20 for HV (p less than 0.001) when the latter was expressed in liters per minute. The correlation between cumulative M PD20 and HV PD20 expressed as a percent of maximal voluntary ventilation was significant but less strong. We conclude that the airway response to HV reflects nonspecific bronchial hyperresponsiveness and that the dose of HV is best determined as the absolute level of ventilation.