We studied the relationship of serum immunoglobulin-E (Ig-E) and interleukin-4 (IL-4) concentrations, eosinophil counts, and frequency of respiratory illness with passive smoking in 70 randomly selected children of smoking parents. Fifty randomly selected age-matched children of non-smoking parents served as controls. Children of smoking parents had higher frequency of respiratory illnesses per year (P < 0.01), significantly higher total leucocytic and eosinophil counts, higher percentage of eosinophils (P < 0.01), and higher serum IgE and IL-4 concentrations (P < 0.05) compared to the control group. Serum IgE level was correlated positively with the average number of smoked cigarettes/day, number of siblings, and total leucocytic count. Interleukin-4 concentrations were significantly correlated with the number of smoked cigarettes and IgE levels. Although IgE levels were higher in children of smoking parents (587 +/- 359 IU/ml) compared to controls (189 +/- 21 IU/ml), they did not differ significantly between children with and those without frequent respiratory illness (605 +/- 365 and 557 +/- 354 IU/ml, respectively). Interleukin-4 concentrations were significantly higher in children of smoking parents with frequent respiratory illness (1.8 +/- 0.5 pg/ml) v. those without frequent respiratory illness (1.3 +/- 0.45 pg/ml). Multiple logistic regression analysis revealed that the overall positivity of the risk factors predisposing to respiratory diseases in the study children was 79 percent, and the highest odds ratio was that for IL-4 (OR = 5.15). In conclusion, there is a significant increase in IL-4 and Ig-E concentrations, high eosinophil count and frequent respiratory symptoms in children of smoking parents. It remains that the current state of knowledge on health risks associated with passive smoking warrants that strong preventive action be promoted.
Recent reports suggest that the pancreas participates in tumor necrosis factor alpha (TNF-A) production during stress, and that the islets are predominantly responsible for such synthesis. In vitro TNF-A and interleukin 1-beta (IL-1-beta) inhibit insulin release from islet beta-cells. We measured the circulating levels of IL-1-beta, TNF-A and islet cell antibody (ICA) in 30 children with IDDM (10 of them at their first presentation), 30 of their non-diabetic siblings, and 30 normal age-matched children. In the non-diabetic children we investigated the early phase of insulin release after intravenous bolus of glucose and evaluated tolerance to oral glucose (OGTT). IL-1-beta and TNF-A concentrations were significantly higher in IDDM-siblings (31.8 +/- 7.7 pg/ml and 650 +/- 155 pg/ml respectively) versus normal children (21.2 +/- 6.4 pg/ml and 383 +/- 122 pg/ml respectively). IL-1-beta and TNF-A concentrations did not differ significantly between the diabetic children and healthy age-matched controls. ICA were detected in 60% of the recently diagnosed diabetic children vs. 30% of those with longer duration of diabetes (3.1 +/- 1.2 years). Despite the significantly high prevalence of ICA in the recently diagnosed children with IDDM, their IL-1-beta and TNF-A concentrations were lower than those for the normal children. In experimental animals these cytokines can induce round cell infiltration (insulinitis) and inhibit insulin secretion by beta-cell. The presence of significantly higher concentrations of these cytokines in IDDM siblings, with high prevalence of ICA (16%), was associated with normal oral glucose tolerance and normal peak insulin response (60 +/- 10.4 mlU/ml) after i.v. glucose bolus compared to normal children (52.3 +/- 9.5 mlU/ml). However, after 2 years of follow up, one of them developed IDDM and another developed IGT but none of the normal controls developed abnormal glucose tolerance. It appears that the process of autoimmune aggression against beta-cells, and its effect on insulin release and glucose homeostasis, is a slow and chronic process. However, the production of these cytokines and consequently the degree of beta-cell destruction, in a genetically susceptible subject, might be enhanced by several factors including viral infections. In summary, IL-1-beta and TNF-A levels can be used as indicators of continuing autoimmune aggression against beta-cells before the development of extensive beta-cell destruction.
The importance of islet cell antibodies (ICA) as a predictor of insulin dependent diabetes mellitus (IDDM) has been emphasized by several investigators since 1974. The ICA was also detected in patients with various immune-mediated diseases such as auto-immune thyroiditis. Schistosomiasis is a wide-spread helminthic disease which affects more than 200 million patients all over the world. Immunological abnormalities and pancreatic affection are features of the disease. We studied the prevalence of ICA in 40 children with schistosomiasis (20 males and 20 females), 14 children with IDDM, and 30 of the non-diabetic siblings of patients with IDDM, and evaluated the oral glucose tolerance and early release of insulin after an i.v. load of glucose in children with schistosomiasis, diabetics' siblings, and 10 normal age-matched controls. The age of onset of IDDM and duration of the disease were 6.5 +/- 2.3 and 4.1 +/- 1.2, respectively, and the age of onset and duration of schistosomiasis were 8.3 +/- 2.7 and 2.5 +/- 1.5 years, respectively. Sex, consanguinity, history of previous virus diseases (mumps, measles and rubella), and sex maturity rating did not differ among the three study groups; however, children with schistosomiasis were significantly older. The prevalence of ICA was 50 per cent in children with IDDM, 13 per cent in the diabetics' siblings, and 25 per cent of children with schistosomiasis. Glucose tolerance was normal in children with schistosomiasis and diabetics' siblings. Early release of insulin after i.v. glucose load was significantly lower in children with schistosomiasis compared to the other two groups. In conclusion, the high prevalence of ICA and the decreased early release of insulin in response to an i.v. glucose load in children with schistosomiasis suggest that auto-immune aggression against the islet cells contributes in the pathogenesis of pancreatic disease in these patients, and might increase the risk for developing glucose intolerance and diabetes.
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