Prolactin decrease and shift to a normal-like isoform profile during treatment with quinagolide in a patient affected by an invasive prolactinoma.

Prolactin (PRL) circulates as multiple molecular weight variants: glycosylated phosphorylated, deamidated and sulphated forms. The profiles of the forms, as determined by isoelectrofocusing (IEF), differ in physiological and pathological conditions. The case of a 72-year-old woman affected by an invasive prolactinoma is described. The patient had undergone surgical treatment followed by radiotherapy at the age of 71 years. Bromocriptine therapy followed (up to 10 mg/die), but the PRL levels were still extremely high (over 13,000 micrograms/l as determined by IRMA, after dilution). We therefore treated the patient with quinagolide, at increasing dosages, from 150 micrograms/die on day 0 to 600 micrograms/die on day 220. This treatment progressively lowered PRL to 23.2 micrograms/l. In addition to a decrease in PRL levels, a progressive change in the IEF profile was also noted. Indeed, on day 0, the PRL isoforms were very acidic and during treatment they progressively shifted toward a more basic range. For purpose of comparison PRL profiles were also determined in 8 women with pathological hyperprolactinaemia (group A, aged 16-50 years, PRL levels: 25.1-170.4 micrograms/l), in 6 normal women (group B, aged 25-29 years, PRL levels: 3.4-7.9 micrograms/l) and in 5 normal women during a TRH test (group C, aged 17-52 years, PRL levels: 2.7-10.3 micrograms/l). The profiles observed in group A had a single major peak at isoelectric point (pI) 6.5, while the group B and C profiles were more heterogeneous displaying multiple minor peaks, the majority of the molecules being in a more basic range (pI 6.9 for group B and pI 7.5 for group C). During treatment, the profiles of our subject at first resembled those of group A; subsequently, when the PRL levels had normalised, the profile resembled those noted in group B. Altered (immature?, more glycosilated?, less bioactive?) PRL molecules could be secreted by the tumour. These data show that quinagolide successfully reduced PRL levels, while inducing secretion of forms more similar to those found in women affected by pathological hyperprolactinaemia or in normal women.