Huntington disease (HD), caused by expansion >35 of a polyglutamine tract in huntingtin, results in degeneration of striatal medium spiny neurons (MSNs). Previous studies demonstrated mitochondrial dysfunction, altered intracellular calcium release, and enhanced NMDAR-mediated current and apoptosis in cellular and mouse models of HD. Here, we exposed cultured MSNs from YAC transgenic mice, expressing full-length human huntingtin with 18, 72, or 128 repeats, to a variety of apoptosis-inducing compounds that inhibit mitochondrial function or increase intracellular calcium, and assessed apoptosis 24 h later. All compounds produced a polyglutamine length-dependent increase in apoptosis, but NMDA produced the largest potentiation in apoptosis of YAC72 and YAC128 versus YAC18 MSNs. Moreover, reduction of NMDAR-mediated current and calcium influx in YAC72 MSNs to levels seen in wild-type reduced NMDAR-mediated apoptosis proportionately to wild-type levels. Our results suggest that increased NMDAR signaling plays a major role in enhanced excitotoxic MSN death in this HD mouse model.