In Drosophila, calcium/calmodulin-dependent protein kinase II (CaMKII) activity is crucial in associative courtship conditioning for both memory formation and suppression of courtship during training with a mated female. We have previously shown that increasing levels of constitutively active CaMKII, but not calcium-dependent CaMKII, in a subset of neurons can decrease the initial level of courtship and enhance the rate of suppression of courtship in response to a mated female. In this study, we demonstrate that a subpopulation of noncholinergic, nondopaminergic, non-GABAergic neurons can cause CaMKII-dependent reductions in initial courtship, but only cholinergic neurons enhance training-dependent suppression. These data suggest that processing of pheromonal signals in two subpopulations of neurons, likely antennal lobe projection neurons, is critical for behavioral plasticity.Modification of behavior on short time scales requires fast, likely cell signaling, changes in neuronal circuits. One molecule that has been shown in many systems to be responsible for both short-term and long-term changes in neuronal activity is calcium/calmodulin-dependent protein kinase II (CaMKII). This kinase can act a molecular switch, becoming calcium independent after autophosphorylation at T287. Production of constitutively active kinase is believed to be a first step toward establishing short-and long-term changes in neuronal properties that underlie learning (for review, see Lisman et al. 2002).In Drosophila courtship conditioning, CaMKII is important for behavioral changes that occur during the training period and for formation of associative memory (Griffith et al. 1993; Griffith 1997, 1999). In this behavioral paradigm, a male is exposed to a previously mated female for 1 h, and the effects of training are assessed by measuring courtship of a subsequently presented virgin female. Naive males exposed to virgin females sense female-specific stimulatory pheromones and rapidly initiate courtship, usually copulating within 15 min. In comparison, trained males show reduced courtship of virgins, and this is believed to be the result of association of stimulatory pheromones with an aversive substance given off by mated females (Tompkins et al. 1983). Memory formation can be blocked by inhibition of CaMKII in mushroom bodies, central complex, and parts of the lateral protocerebrum (Joiner and Griffith 1999). The behavior of males during training is also plastic; they initiate vigorous courtship, but over the course of training they decrease their intensity of courtship and rarely copulate. The suppression of courtship during training is driven by a neuronal circuit distinct from that mediating associative memory formation, involving neurons in the antennal lobes and lateral protocerebrum (Joiner and Griffith 1999).The requirement for CaMKII activity was determined using spatially restricted expression of a peptide, which inhibits both the calcium-dependent and the calcium-independent (autophosphorylated at T287) forms of the kinase. ...
