For teens at elevated risk of developing alcohol use disorder (AUD), close relationships with parents can help mitigate their genetic and environmental vulnerability, a new study suggests. The offspring of people with AUD are four times more likely than others to develop the disorder. Increasing evidence suggests that this heritable risk may be either amplified or mitigated by the quality of parenting. Deficient parenting has been linked to a range of negative behavioral and psychiatric outcomes, while positive parenting appears critical for the development of higher-level social, emotional, and cognitive traits. Typical neurological development during adolescence hones self-regulatory and executive function capacities (e.g., attention, inhibition, and decision-making), enabling adaptive responses to challenging situations. Deficiencies in these capacities underlie risk for developing substance use disorders. Research has established that people with AUD and their offspring, during cognitive tasks, manifest low activity on two measures of quantifiable brain responses. These — known as P3 and frontal theta (FT)—are important in self-regulation and executive function. Low levels of P3 and FT predict AUD development and can be conceptualized as a “neurodevelopmental lag.” Little is known about the potential for positive parenting, especially by fathers, to buffer against this outcome in teens at high risk for developing AUD. For the study in Alcoholism: Clinical & Experimental Research, investigators explored associations between vulnerable young people’s P3, FT, risky drinking, and closeness with their mothers and fathers during adolescence.
Between 2004 and 2019, researchers recruited 1,256 young offspring, aged 12–22 at baseline, from the Collaborative Study on the Genetics of Alcoholism (COGA), a large, multigenerational family study on the genetic and environmental influences driving AUD. These offspring were interviewed and their brain function was assessed biannually. The interviews covered participants’ substance use, mental health, and aspects of their home environments, including closeness with their mothers and fathers between ages 12-17. Their P3 and FT responses were measured using a visual task. Researchers also collected data on participants’ binge drinking, impulsiveness (a personality trait known to affect alcohol use problems and relationships with parents), demographic characteristics, and parents’ alcohol and substance use. They used statistical analysis to explore associations between these factors.
Overall, greater closeness with fathers was associated with more robust P3 and FT activity in offspring, while closeness with mothers was linked to less binge drinking. Certain sex differences also emerged. Closeness with fathers was linked to larger P3 in sons but not daughters; closeness with mothers was linked to less binge drinking among daughters but not sons. This may reflect distinct roles of fathers and mothers in child and teen development, and differential parenting of boys versus girls. The findings held independent of other risk factors, including parents’ AUD, substance use problems, socioeconomic status, and offspring impulsiveness.
The study provides compelling evidence that warm, close relationships with parents during adolescence may help build resilience to problematic drinking in offspring negatively affected by family AUD and that this, in part, reflects improved neurocognitive functioning. Aspects of parenting affecting children’s risk of AUD include—and go beyond—drinking behaviors. The researchers conclude that close bonds with parents during the key transitional period of adolescence can substantially attenuate offspring’s tendency toward risky behaviors and addictive disorders, with important sex differences.
Associations of parent-adolescent closeness with P3 amplitude, frontal theta, and binge drinking among offspring with high-risk for alcohol use disorder. G. Pandey, S. Kuo, A. Pandey, C. Kamarajan, S. Subbie, S. Kinreich, D. Chorlian, W. Kuang, M. Stephenson, J. Kramer, A. Anokhin, Y. Zang, S. Kuperman, V. Hesselbrock, M. Schuckit, D. Dick, G. Chan, V. McCutcheon, H. Edenberg, K. Bucholz, J. Meyers, B. Porjesz. (Pp xxx)
ACER-22-5240.R1