The dynamics of glycoprotein hormone alpha-subunit (GPHalpha) maturation and GPHalpha alpha homodimer formation were studied in presence (JEG-3 choriocarcinoma cells) and absence (HeLa cells) of hCGbeta. In both cases, the major initially occurring GPHalpha variant in [35S]Met/Cys-labeled cells carried two N-glycans (M(r app) = 22 kDa). Moreover, a mono-N-glycosylated in vivo association-incompetent GPHalpha variant (M(r app) = 18 kDa) was observed. In JEG-3 cells the early 22-kDa GPHalpha either associated with hCGbeta, or showed self-association to yield GPHalpha alpha homodimers, or was later converted into heavily glycosylated large free GPHalpha (M(r app) = 24 kDa). Micro-preparative isolation of intracellular GPHalpha alpha homodimers of JEG-3 cells and their conversion by reduction revealed that they consisted of 22-kDa GPHalpha monomers and not of large free GPHalpha. In HeLa cells, the large free GPHalpha variant was not observed, whereas GPHalpha alpha homodimers were present. Intracellularly, early GPHalpha alpha homodimers (35 kDa) and late variants (JEG-3: 44 kDa, HeLa: 39 kDa) were found. Both cell types secreted 45 kDa GPHalpha alpha homodimers. Large free GPHalpha and GPHalpha alpha homodimers were more rapidly sialylated than hCG alphabeta-heterodimers indicating a sequestration mechanism in the secretory pathway. In GPHalpha alpha homo- as well as hCG alphabeta-heterodimers the subunit interaction site, located on loop 2 of GPHalpha (amino acids 33-42), became immunologically inaccessible indicating similar spatial orientation of GPHalpha in both types of dimers. The studies demonstrate the formation, in vivo dynamics of GPHalpha alpha homodimers, and the pathways of the cellular metabolism of variants of GPHalpha, monoglycosylated GPHalpha and large free GPHalpha.