The lymphotoxins (LT) alpha and beta, members of the tumor necrosis factor (TNF) cytokine superfamily, are implicated as important regulators and developmental factors for the immune system. LTalpha is secreted as a homotrimer and signals through two TNF receptors of 55-60 kDa (TNFR60) or 75-80 kDa (TNFR80). LTalpha also assembles with LTbeta into a membrane-anchored, heterotrimeric LTalpha1beta2 complex that engages a distinct cognate receptor, the LTbeta receptor (LTbetaR). To investigate the role of the LTalpha subunit in the function of the membrane LTalpha1beta2 complex, gene transfer via baculovirus was used to assemble LTalpha and -beta complexes in insect cells. LTalpha containing mutations at D50N or Y108F are secreted as homotrimers that fail to bind either TNF receptor and are functionally inactive in triggering cell death of the HT29 adenocarcinoma cell line. In contrast, these mutant LTalpha proteins retain the ability to co-assemble with LTbeta into membrane-anchored LTalpha1beta2 complexes that engage the LTbetaR and trigger the death of HT29 cells. Membrane-anchored LTbeta expressed on the cell surface in absence of the LTalpha subunit binds the LTbetaR but is functionally inactive in the cell death assay. These results indicate that the TNF receptor-binding regions of the LTalpha subunit are not necessary for engagement of the LTbetaR, but the LTalpha subunit is required for the assembly of LTbeta into a functional heteromeric ligand.