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Query: UMLS:C0409974 (
lupus
)
22,386
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We investigated patients with
lupus erythematosus
to detect the presence of hyperprolactinemia and to determine it's origin. From the seric specimens obtained in 225 patients with LES, we found 37 (14.5%) with hyperprolactinemia and they were trated with polyethylenglicol, in 11 of 37 patients (29.7%) had a high significance of prolactin precipitation (PRL). The test in gel filtration shown the big-big PRL (Molecular weight > 100 kDa) was the predominant form from PRL seric in these patients and no woman had clinic effects of hyperprolactinemia as
galactorrhea
and/or amenorrhea. The big-big PRL essence was due to an antibody, with it was found like a immune complex (Ig-PRL). This evidence suggest the patients with LES and hyperprolactinemia have a very high incidence of macroprolactinemia relationated to antibodies anti-PRL, and in spite of the hyperprolactinemia not have clinical effects like amenorrhea and/or
galactorrhea
, and it is other cause to explain the high incidence of hyperprolactinemia in patients with LES.
...
PMID:[Antibodies against prolactin in patients with systemic lupus erythematosus and hyperprolactinemia]. 964 75
A woman with systemic lupus erythematosus (SLE) with marked increases in circulating 150-kDa PRL was studied from before conception, throughout pregnancy, and after pregnancy. The clinical features of the patient included idiopathic hyperprolactinemia without clinical symptoms such as amenorrhea and
galactorrhea
before pregnancy. No clinical
lupus
activity was present during follow-up. Serum PRL increase during pregnancy in this patient was considerably higher at weeks 27 and 33 than in normal pregnant women. In contrast, serum-free PRL levels were considerably lower at weeks 20, 27, and 33 than in normal pregnant women. A 150-kDa PRL (big big PRL) species persisted as the predominant circulating form of PRL throughout each measurement in this woman with SLE. In contrast, the predominant form of PRL in serum from healthy pregnant women was little PRL (or monomeric PRL). The nature of big big PRL was due to the presence of anti-PRL autoantibodies forming an IgG-23 kDa PRL complex, in accordance with the studies by affinity chromatography for IgG and Western blot analysis. The IgG-PRL complex was fully bioactive in vitro (Nb2 rat lymphoma cell assay). Injection of the serum into the rats demonstrated that the IgG-PRL complex was cleared more slowly than serum containing predominantly monomeric PRL. The data suggest that the IgG-PRL complex has biological activity; the absence of symptoms in this woman may be attributed to the fact that due to its large molecular weight, big big PRL does not easily cross the capillary walls. Delayed clearance may account for increased serum PRL levels in this SLE patient with anti-PRL autoantibodies.
...
PMID:Persistence of macroprolactinemia due to antiprolactin autoantibody before, during, and after pregnancy in a woman with systemic lupus erythematosus. 1139 62
Prolactin secretion from the anterior pituitary is mediated via dopaminergic pathways. Any process that alters dopamine production or transport in the central nervous system may lead to hyperprolactinemia. Most cases of hyperprolactinemia are due to prolactin secreting pituitary tumors or to medications which alter dopamine production. Prolactinomas cause amenorrhea,
galactorrhea
and infertility in women and impotence and neurological deficits in men. Dopamine receptor agonists are the mainstay of therapy for hyperprolactinemia as they rapidly lower serum prolactin and cause tumor shrinkage. In this paper we review the regulation of prolactin secretion, the clinical features and causes of hyperprolactinemia, and the use of dopamine agonists.
Lupus
2001
PMID:Pituitary production of prolactin and prolactin-suppressing drugs. 1172 91
Evidence has shown that prolactin is an essential component of an effective immune response. In systemic lupus erythematosus, clinical trials have produced controversial information about the role of PRL. Some results find association between serum PRL levels and disease activity. In contrast, other authors did not find this. Recently, autoantibodies against prolactin in SLE patients have been described. One hundred percent of SLE patients with anti-PRL autoantibodies had hyperprolactinemia (hPRL) and 31.7% of the SLE patients classified with idiopathic hPRL had anti-prolactin antibodies. A similar result was found in 103 pediatric SLE patients. The patients with idiopathic hyperprolactinemia and anti-PRL autoantibodies had less clinical and serological
lupus
activity than the SLE patients with idiopathic hyperprolactinemia, but without anti-PRL autoantibodies. This evidence suggests that anti-PRL autoantibodies or the complex with any other molecule, like macroprolactinemia (big-big PRL) could have attenuated biological activity and this could explain why some clinical studies did not find any association between serum PRL levels and disease activity in SLE patients. However, studies in vitro have shown normal or elevated biological activity in Nb2 cell lines using PRL from serum with anti-PRL autoantibodies from patients with or without autoimmune diseases. Several conclusions could be drawn. One is that while a set of hyperprolactinemic SLE patients display autoantibodies against PRL, it is not clear what role these autoantibodies play in the whole system. However, until now, we knew that the patients with antibodies to PRL lacked the clinical symptoms of hyperprolactinemia such as menstrual disturbances and/or
galactorrhea
and show less clinical and serological
lupus
activity.
Lupus
2001
PMID:Analysis of anti-prolactin autoantibodies in systemic lupus erythematosus. 1172 3
Hyperprolactinemia without clinical manifestations has been reported in some patients with systemic lupus erythematosus (SLE) because an increase of prolactin (PRL) is produced due to the BIG/BIG molecular variant (molecular variant < 150 kD). This research project aimed to determine levels of PRL: its bioactive form, the little nonglycosylated form (NGPRL) and variants with decreased bioactivity such as the BIG/BIG and the little glycosylated (GPRL), in 29 women and five men with SLE. PRL was assayed by IRMA with a kit from Immunotech Laboratory, the BIG/BIG form by precipitation with polyethyleneglycol 6000, and the NGPRL and GPRL by chromatography on Concanavalin-A- Sepharose. Increased PRL was detected in seven patients (20.6%) of whom three had increased BIG/BIG, six had increased GPRL and only four had increased NGPRL. The three cases with increased BIG/BIG were contrasted by chromatography on Sephadex G-100. No increased PRL or any of the other variants assayed were found in men. Results were similar when PRL was evaluated in the same blood samples by a different IRMA (DPC Laboratory). The etiology of the hyperprolactinemia in some of these patients is unknown, but their lack of symptoms (
galactorrhea
or amenorrhea) could be due to the BIG/BIG forms and basically to the glycosylation of the hormone. As for the relation between PRL and SLE activity, we found that hyperprolactinemic patients were younger, had a shorter history of illness, although it was not statistically significant, and a higher SLEDAI score. This would indicate a relation between hyperprolactinemia and
lupus
activity. The patients with increased BIG/BIG form also had a very active illness at the time of the study.
Lupus
2004
PMID:Analysis of molecular heterogeneity of prolactin in human systemic lupus erythematosus. 1546 86
