Dissociation of early folding events from assembly of the human lutropin beta-subunit.

Abstract

The human LH of the anterior pituitary is a member of the glycoprotein hormone family that includes FSH, TSH, and placental CG. All are noncovalently bound heterodimers that share a common alpha-subunit and beta-subunits that confer biological specificity. LHbeta and CGbeta share more than 80% amino acid sequence identity; however, in transfected Chinese hamster ovary (CHO) cells, LHbeta assembles with the alpha-subunit more slowly than does hCGbeta, and only a fraction of the LHbeta synthesized is secreted, whereas CGbeta is secreted efficiently. To understand why the assembly and secretion of these related beta-subunits differ, we studied the folding of LHbeta in CHO cells transfected with either the LHbeta gene alone, or in cells cotransfected with the gene expressing the common alpha-subunit, and compared our findings to those previously seen for CG. We found that the rate of conversion of the earliest detectable folding intermediate of LH, pbeta1, to the second major folding form, pbeta2, did not differ significantly from the pbeta1-to-pbeta2 conversion of CGbeta, suggesting that variations between the intracellular fates of the two beta-subunits cannot be explained by differences in the rates of their early folding steps. Rather, we discovered that unlike CGbeta, where the folding to pbeta2 results in an assembly-competent product, apparently greater than 90% of the LH pbeta2 recovered from LHbeta-transfected CHO cells was assembly incompetent, accounting for inefficient LHbeta assembly with the alpha-subunit. Using the formation of disulfide (S-S) bonds as an index, we observed that, in contrast to CGbeta, all 12 LHbeta cysteine residues formed S-S linkages as soon as pbeta2 was detected. Attempts to facilitate LH assembly with protein disulfide isomerase in vitro using LH pbeta2 and excess urinary alpha-subunit as substrate were unsuccessful, although protein disulfide isomerase did facilitate CG assembly in this assay. Moreover, unlike CGbeta, LHbeta homodimers were recovered from transfected CHO cells. Taken together, these data suggest that differences seen in the rate and extent of LH assembly and secretion, as compared to those of CG, reflect conformational differences between the folding intermediates of the respective beta-subunits.