The effects of intraventricular injections of the neuropeptides substance P (SP) and neurokinin A (NK-A; also called substance K) on spontaneous motor behavior were examined in mice. SP and NK-A were essentially equipotent at enhancing grooming and scratching behavior, and at reducing sniffing behavior. However, SP significantly enhanced hindlimb rearing behavior, while NK-A reduced this behavior. The effects of 3 other tachykinins, physalaemin, eledoisin and kassinin, were comparable to those of NK-A, including the reduction in rearing. Thus, SP is unique among tachykinins in its potentiation of rearing behavior. It was further demonstrated that carboxy-terminal SP fragments with tachykinin activity on smooth muscle resemble NK-A, and not SP, in their effects on motor behavior. In contrast, amino-terminal SP fragments, devoid of tachykinin-like activity, reproduced the one motor effect unique to SP, enhanced rearing, while lacking those actions common to all tachykinins. The structural requirements for enhanced rearing behavior by amino-terminal fragments were quite specific, in terms of chain length and sensitivity to D-amino acid substitutions, with the natural amino-terminal hexa- and heptapeptides being most active. The implications of these findings are discussed in light of recent observations that these same amino-terminal SP fragments are produced in vivo as metabolites of SP.