In vivo intoxication with Bordetella pertussis toxin (PTX) elicits a variety of physiological responses including a marked leukocytosis, disruption of glucose regulation, adjuvant activity, alterations in vascular function, hypersensitivity to vasoactive agents, and death. We recently identified Bphs, the locus controlling PTX-induced hypersensitivity to the vasoactive amine histamine, as the histamine H 1 receptor (Hrh1). In this study Bphs congenic mice and mice with a disrupted Hrh1 gene were used to examine the role of Bphs/Hrh1 in the genetic control of susceptibility to a number of phenotypes elicited following in vivo intoxication. We report that the contribution of Bphs/Hrh1 to the overall genetic control of responsiveness to PTX is restricted to susceptibility to histamine hypersensitivity and enhancement of antigen-specific delayed-type hypersensitivity responses. Furthermore, the genetic contribution of Bphs/Hrh1 to vasoactive amine sensitization is specific for histamine, since hypersensitivity to serotonin was unaffected by Bphs/Hrh1. Bphs/Hrh1 also did not significantly influence susceptibility to the lethal effects, the leukocytosis response, disruption of glucose regulation, and histamineindependent increases in vascular permeability associated with in vivo intoxication. Nevertheless, significant interstrain differences in susceptibility to the lethal effects of PTX and leukocytosis response were observed. These results indicate that the phenotypic variation in responsiveness to PTX reflects the genetic control of distinct intermediate phenotypes rather than allelic variation in genes controlling overall susceptibility to intoxication.Pertussis toxin (PTX) is a major virulence factor of Bordetella pertussis, the causative agent of whooping cough (9). The holotoxin is a hexameric protein that conforms to the A/B model of bacterial exotoxins (31). The A subunit is an ADPribosyltransferase which affects signal transduction by ribosylation of the ␣ subunit of trimeric Gi proteins while the B oligomer binds cell surface receptors on a variety of mammalian cells (19,31). PTX, when administered in vivo, elicits a large number of physiological responses including disruption of glucose regulation, leukocytosis, adjuvant activity, increased vascular permeability associated with alteration of blood-tissue barrier functions, sensitization to vasoactive agents, and death (12,24,27,29,44).Inbred strains of mice differ in susceptibility to vasoactive amine challenge following PTX sensitization in that genetically susceptible strains die from hypotensive and hypovolemic shock whereas resistant strains do not (29,43). Bphs, the gene controlling susceptibility to PTX-induced hypersensitivity to histamine, was previously mapped to the central region of mouse chromosome 6 (39) and recently identified as being the histamine H 1 receptor (Hrh1) (25). As the first step in positionally cloning Bphs, we generated a panel of interval-specific recombinant congenic lines by using marker-assisted selection to introgress the ...
