According to scientists, a variation of a particular gene may link the behaviours typical of childhood attention hyperactivity disorder, or ADHD for short, and those associated with smoking. Among the scientists one is of Indian origin.
Childhood ADHD and subsequent smoking in adulthood frequently go hand in hand, said the researchers, with people who have been diagnosed with ADHD more likely to start smoking early and to smoke twice as much as those without the condition.
The researchers focused on five variations in DNA sequences (single nucleotide polymorphisms or SNPs) in different genes that are strongly associated with different aspects of smoking behaviour, such as the number of cigarettes smoked every day, and taking up and quitting smoking.
They quizzed the children's mothers about their smoking habits during pregnancy. Of those 394 mothers for whom they had information, 171 had smoked during pregnancy and 223 had not.
And they assessed the extent of the children's behavioural and emotional problems at home and at school, as well as their intellectual capacity, using a battery of validated tests.
They took blood samples from the children, their parents, and siblings to see if any high risk variants (alleles) of the five genetic markers had been passed on, and if these were more strongly associated with the externalising behaviours/disinhibition and impaired cognitive performance characteristic of ADHD.
Only one of the five SNPs (rs 1329650), which was associated with the number of cigarettes smoked, was much more likely to be associated with ADHD.
The high risk C allele of rs 1329650 was significantly more likely to be passed on from the parents and to be associated with the more severe form of ADHD. It was much more common among children who had higher scores on the validated behavioural tests.
And children who performed less well on tasks requiring more brain power and concentration were also more likely to inherit this risk allele.
It was as likely to be found in children whose mothers had smoked during pregnancy as those who hadn't, suggesting that environmental tobacco smoke does not modify the risk allele.
The researchers concluded that the C allele of rs1329650 might increase the risk of both ADHD and smoking through prompting behaviours and impaired higher brain functions that are typical of childhood ADHD, and which could act as a gateway to smoking in later life.
The study should only be interpreted as preliminary evidence of theoretical plausibility for shared molecular genetic risks for smoking and ADHD, until it has been tested in further larger studies, said Dr Miriam Cooper and Professor Anita Thapar from the Institute of Psychological Medicine and Clinical Neurosciences and the Medical Research Council Centre for Neuropsychiatric Genetics and Genomics, at Cardiff University School of Medicine.
But they added that this is an intriguing starting point from which to conduct further related analyses.
The research has been published online in the Archives of Disease in Childhood.