Behavioural assessment of mice lacking D1A dopamine receptors

Dopamine D 1A receptor-deficient mice were assessed in a wide variety of tasks chosen to reflect the diverse roles of this receptor subtype in behavioural regulation. The protocol included examination of exploration and locomotor activity in an open field, a test of sensorimotor orienting, both place and cue learning in the Morris water maze, and assessment of simple associative learning in an olfactory discrimination task. Homozygous mice showed broad-based impairments that were characterized by deficiencies in initiating movement and/or reactivity to external stimuli. Data obtained from flash evoked potentials indicated that these deficits did not reflect gross visual impairments. The partial reduction in D 1A receptors in the heterozygous mice did not affect performance in most tasks, although circumscribed deficits in some tasks were observed (e.g., failure to develop a reliable spatial bias in the water maze). These findings extend previous behavioural studies of null mutant mice lacking D 1A receptors and provide additional support for the idea that the D 1A receptor participates in a wide variety of behavioural functions. The selective impairments of heterozygous mice in a spatial learning task suggest that the hippocampal/cortical dopaminergic system may be uniquely vulnerable to the partial loss of the D 1A receptor.