Muscarinic receptors of the M2 subtype, which inhibit acetylcholine release from cholinergic nerves (autoreceptors), have been described in animal and human bronchi in vitro. We investigated whether these receptors may be involved in feedback inhibition of cholinergic reflex bronchoconstriction induced by sulfur dioxide (SO2) in seven nonasthmatic atopic subjects and in six mild asthmatic subjects. In a control experiment, total respiratory resistance (Rrs) was increased by 30 +/- 5% in nonasthmatic and by 60 +/- 18% in asthmatic subjects. In nonasthmatic subjects, pilocarpine, an agonist of muscarinic M2-autoreceptors, increased Rrs by 15 +/- 5% and addition of SO2 increased Rrs to 21 +/- 5% above base line, which was not significantly greater than after pilocarpine alone. Histamine gave a comparable bronchoconstriction (25 +/- 3% increase in Rrs) and SO2 further increased Rrs to 39 +/- 6% above base line (P less than 0.05). Thus pilocarpine appears to inhibit SO2-induced bronchoconstriction in nonasthmatic subjects, and this effect is not explained by an increase in airway tone. In asthmatic subjects, pretreatment with pilocarpine increased Rrs by 31 +/- 8% and SO2 further increased Rrs to 88 +/- 17% above base line. SO2 alone gave a 60 +/- 18% increase in Rrs. Our results suggest that feedback inhibitory muscarinic receptors may be present on cholinergic nerves in normal airways and that there may be a dysfunction of this feedback mechanism in asthmatic airways. This might be contributory to exaggerated cholinergic reflex bronchoconstriction in asthma.
Vaccines that elicit targeted tumor antigen-specific T-cell responses have the potential to be used as adjuvant therapy in patients with high risk of relapse. However, the responses induced by vaccines in cancer patients have generally been disappointing. To improve vaccine function, we investigated the possibility of exploiting the immunostimulatory capacity of type 1 Natural killer T (NKT) cells, a cell type enriched in lymphoid tissues that can trigger improved antigen-presenting function in dendritic cells (DCs). In this phase I dose escalation study, we treated eight patients with high-risk surgically resected stage II-IV melanoma with intravenous autologous monocyte-derived DCs loaded with the NKT cell agonist α-GalCer and peptides derived from the cancer testis antigen NY-ESO-1. Two synthetic long peptides spanning defined immunogenic regions of the NY-ESO-1 sequence were used. This therapy proved to be safe and immunologically effective, inducing increases in circulating NY-ESO-1-specific T cells that could be detected directly ex vivo in seven out of eight patients. These responses were achieved using as few as 5 × 10 peptide-loaded cells per dose. Analysis after in vitro restimulation showed increases in polyfunctional CD4 and CD8 T cells that were capable of manufacturing two or more cytokines simultaneously. Evidence of NKT cell proliferation and/or NKT cell-associated cytokine secretion was seen in most patients. In light of these strong responses, the concept of including NKT cell agonists in vaccine design requires further investigation.
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