The five disulfide bonds of isolated alpha subunits of luteinizing hormone (LH) and thyroid-stimulating hormone (TSH) are completely reduced at pH 8.5 in 15 min with no denaturant required and with only a slight excess of reducing agent. At pH 7.0, reduction is complete after 6 to 10 h. These results together with an earlier study concerning the positions of the two most readily reduced bonds (Cornell J.S., and Pierce, J.G. (1974) J. Biol. Chem. 249, 4166-4174) show that, in the isolated alpha subunit, all disulfides are readily accessible, although it is possible that a change in conformation, after rapid initial reduction of two disulfides, makes the remaining three more susceptible to reduction. No partially reduced and S-carboxymethylated intermediates were found at pH 7.0 other than those seen at pH 8.5, nor were additional intermediates found at pH 8.5 when reduction was initiated in the presence of alkylating agent. In contrast, reduction of the beta, hormone-specific, subunits of LH and TSH, while complete at pH 8.5 after 2 to 6 h, does not proceed to completion at pH 7.0 even after 24 h or upon addition of 6 M urea or large concentrations of reducing agent, and partially reduced intermediates useful in location of disulfide bridges can be trapped (e.g. Reeve, J.R., Cheng, K.-W., and Pierce, J.G. (1975) Biochem. Biophys. Res. Commun. 67, 149-155). Little or no reduction of the intact hormones is found at pH 7.0 in the absence of denaturing agents. This protection by the intact structure shows that the two most readily reduced disulfides of the alpha subunit and the single most readily reduced sidulfide of the beta subunits are either in regions of subunit-subunit contact or that these bonds become more reactive in the isolated subunits because of different influences by neighboring groups. At pH 8.5, intact LH is completely reduced after 6 h, but intact TSH is more resistant to reduction, which may reflect a higher affinity between subunits than exists in LH.