OBJECTIVES: Environmental tobacco smoke is associated with several negative health outcomes in children, including an increased susceptibility to infections. One of the postulated mechanisms for these effects is the impairment of the immune system function and/or development. Yet, it remains unknown whether cumulative exposure to parental smoking is associated with altered immune responses in childhood and whether these effects are independent of in utero exposure to maternal smoking. In a population-based birth cohort, we sought to determine the relation of parental smoking, as assessed prospectively since pregnancy, to the child's interferon gamma and interleukin 4 production at 11 years of age. PATIENTS AND METHODS: We used data on 512 children and their parents from the Tucson Children's Respiratory Study cohort. Information on maternal and paternal smoking was collected prospectively by questionnaire, and pack-years for mother, father, and both parents combined were assessed prospectively between the prenatal period and year 11. At age 11 years, children's interferon gamma and interleukin 4 production from mitogen-stimulated peripheral blood mononuclear cells was measured. RESULTS: Children of parents who smoked between the prenatal period and year 11 were more likely to be in lower quartiles of interferon gamma production than children of nonsmoking parents. In addition, maternal, paternal, and parental pack-years showed significant inverse dose-response relationships with interferon gamma production in the child. These dose-response relationships with interferon gamma remained significant for both paternal and parental pack-years among children of mothers who did not smoke during pregnancy, suggesting the existence of specific postnatal effects of environmental tobacco smoke exposure. In contrast, no significant effects of parental smoking were found on interleukin 4 production. CONCLUSIONS: Interferon gamma responses of school-aged children are impacted by parental smoking.
OBJECTIVES: Environmental tobacco smoke is associated with several negative health outcomes in children, including an increased susceptibility to infections. One of the postulated mechanisms for these effects is the impairment of the immune system function and/or development. Yet, it remains unknown whether cumulative exposure to parental smoking is associated with altered immune responses in childhood and whether these effects are independent of in utero exposure to maternal smoking. In a population-based birth cohort, we sought to determine the relation of parental smoking, as assessed prospectively since pregnancy, to the child's interferon gamma and interleukin 4 production at 11 years of age. PATIENTS AND METHODS: We used data on 512 children and their parents from the Tucson Children's Respiratory Study cohort. Information on maternal and paternal smoking was collected prospectively by questionnaire, and pack-years for mother, father, and both parents combined were assessed prospectively between the prenatal period and year 11. At age 11 years, children's interferon gamma and interleukin 4 production from mitogen-stimulated peripheral blood mononuclear cells was measured. RESULTS:Children of parents who smoked between the prenatal period and year 11 were more likely to be in lower quartiles of interferon gamma production than children of nonsmoking parents. In addition, maternal, paternal, and parental pack-years showed significant inverse dose-response relationships with interferon gamma production in the child. These dose-response relationships with interferon gamma remained significant for both paternal and parental pack-years among children of mothers who did not smoke during pregnancy, suggesting the existence of specific postnatal effects of environmental tobacco smoke exposure. In contrast, no significant effects of parental smoking were found on interleukin 4 production. CONCLUSIONS:Interferon gamma responses of school-aged children are impacted by parental smoking.
Authors: Elizabeth Cole; Traci A Brown; Kent E Pinkerton; Britten Postma; Keegan Malany; Mihi Yang; Yang Jee Kim; Raymond F Hamilton; Andrij Holian; Yoon Hee Cho Journal: Inhal Toxicol Date: 2017-08 Impact factor: 2.724
Authors: Stefano Guerra; Debra A Stern; Muhan Zhou; Duane L Sherrill; Anne L Wright; Wayne J Morgan; Fernando D Martinez Journal: Thorax Date: 2013-07-11 Impact factor: 9.139
Authors: Sharon A McGrath-Morrow; Julie Gorzkowski; Judith A Groner; Ana M Rule; Karen Wilson; Susanne E Tanski; Joseph M Collaco; Jonathan D Klein Journal: Pediatrics Date: 2020-02-11 Impact factor: 9.703