Abstract
Automatic semantic processing can be assessed using semantic priming paradigms. Individual differences in semantic priming have been associated with differences in executive functions. The brain-derived neurotrophic factor (BDNF) Val66Met (substitution of valine (Val) to methionine (Met) at codon 66) polymorphism has been shown to be associated with executive functions as well as depression. Depression-associated variables such as depressed mood also moderated the relationship between BDNF Val66Met and executive functions in previous work. In this study, we therefore aimed at investigating whether BDNF Val66Met genotype modulates masked and unmasked semantic priming as well as executive functions and whether sadness is a moderator of these associations. We collected data of N = 155 participants measuring reaction times (RTs) as well as error rates (ERs) in masked and unmasked semantic priming paradigms using a lexical decision task. We assessed the primary emotion of SADNESS using the Affective Neuroscience Personality Scale (ANPS) and working memory using digit span forward and backward tasks. Met+ carriers showed reduced RT priming and increased ER priming in the masked priming paradigm. Even though there was no direct association between BDNF Val66Met and executive functions, SADNESS significantly moderated the association between BDNF Val66Met and executive functions as well as masked RT priming. We suggest that Met+ individuals with low depressive tendencies have not only superior EF, but also a faster and more superficial processing style, compared with Val/Val homozygotes. However, in Met+ individuals, cognitive functioning exhibits a greater vulnerability to depressed emotionality compared with Val/Val homozygotes. Our study thus demonstrates how emotional and molecular genetic factors exert an interacting influence on higher-level cognition.
Highlights
Semantic word processing, i.e., accessing the meaning of words, can be investigated with the semantic priming paradigm (Meyer and Schvaneveldt 1971)
The brain-derived neurotrophic factor (BDNF) Val66Met polymorphism explained a significant amount of variance in masked semantic priming
Met+ individuals showed reduced reaction times (RTs) priming compared with Val/Val homozygotes and significantly higher ER priming resulting from high error rates in semantically non-related trials
Summary
I.e., accessing the meaning of words, can be investigated with the semantic priming paradigm (Meyer and Schvaneveldt 1971). Semantic priming effects can reflect automatic as well as controlled semantic processing Automatic semantic processing such as spreading activation (Collins and Loftus 1975) or preactivation of semantic features (Masson 1995) is thought to be assessed when using short stimulus onset asynchronies (SOAs) between prime and target (Neely 1991), whereas controlled mechanisms such as expectancy generation or semantic matching (a recognized semantic relation indicates a word response in the lexical decision task) are assumed to operate only at SOAs longer than 300 ms (Neely 1991). In order to investigate automatic semantic processing in isolation, the masked priming paradigm can be used (Kiefer 2002; Marcel 1983): A mask such as a random sequence of
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