Kacsóh B, Veress Z, Tóth B E, Avery L M, Grosvenor C E
Department of Molecular and Cell Biology, Pennsylvania State University, University Park 16802.
J Endocrinol. 1993 Aug;138(2):243-57. doi: 10.1677/joe.0.1380243.
Prolactin (PRL)-like bioactivity (in Nb2 lymphoma assay) and immunoreactivity (in radioimmunoassay (RIA)) in rat milk, maternal and neonatal sera and in neonatal rat pituitary cultures were investigated. The PRL-like bioactivity in the water-soluble fraction of rat milk was high and exceeded its immunoreactivity 5.8-, 4.0- and 2.1-fold, on days 2, 12 and 22 of lactation respectively. The elevated bioactivity to immunoreactivity (B/I) ratio of PRL in milk was not due to the presence of interleukin-2 (IL-2) in milk, since the proliferation of the CTLL-2 murine T cells, which are not sensitive to PRL, was promoted by IL-2 but not by milk. Serum levels of immunoreactive PRL were low in sera of non-weaned rat pups on days 2, 12 and 22 postpartum. Similar to milk, the B/I ratio of PRL in sera of rat pups was high and decreased with time postpartum. Pituitary glands of pups obtained on days 2, 12 and 22 secreted progressively increasing amounts of PRL in vitro; the B/I ratio ranged between 1.2 and 2.1 without a significant change. The relative concentrations of size variants in milk were not proportional to those in serum of lactating rats on day 2 postpartum as assessed by Sepharcryl S-100 HR gel permeation chromatography and Nb2 bioassay or RIA. Size variants of biologically active PRL were abundant in early milk and gradually diminished as lactation progressed: a partially resolved peak representing monomeric to dimeric PRL variants (relative molecular weights ranging between 18 k and 42 k) became progressively narrower between days 2 and 22. Biologically active and immunoreactive PRLs displayed disparate elution profiles. The elution profile of PRL in sera of neonatal rats on day 2 post-partum was different from that of maternal serum or milk. The major immunological (and possibly biological) PRL-like activity eluted as two adjacent peaks at 2.2 k and 1.5 k, raising the possibility that fragments of milk-borne PRL were absorbed from the gut after partial proteolytic degradation. In contrast with PRL, GH (which is present in rat milk only in minute concentrations) did not show heterogeneity in sera of 2-day-old rat pups in gel permeation chromatography. The present results demonstrate that the concentrations of PRL-like activity in rat milk and newborn rat serum have been grossly underestimated because levels have been measured by RIA. The high B/I ratio of PRL in milk and neonatal sera is due to the presence of PRL-related compounds.(ABSTRACT TRUNCATED AT 250 WORDS)
研究了大鼠乳汁、母鼠和新生鼠血清以及新生大鼠垂体培养物中的催乳素(PRL)样生物活性(采用Nb2淋巴瘤检测法)和免疫反应性(采用放射免疫测定法(RIA))。在哺乳期第2天、第12天和第22天,大鼠乳汁水溶性部分的PRL样生物活性较高,分别超过其免疫反应性5.8倍、4.0倍和2.1倍。乳汁中PRL的生物活性与免疫反应性(B/I)比值升高并非由于乳汁中存在白细胞介素-2(IL-2),因为对PRL不敏感的CTLL-2小鼠T细胞的增殖是由IL-2而非乳汁促进的。产后第2天、第12天和第22天,未断奶幼鼠血清中免疫反应性PRL的水平较低。与乳汁相似,幼鼠血清中PRL的B/I比值较高,并随产后时间下降。在第2天分别从产后第2天、第12天和第22天获取的幼鼠垂体在体外分泌的PRL量逐渐增加;B/I比值在1.2至2.1之间,无显著变化。通过Sepharcryl S-100 HR凝胶渗透色谱法和Nb2生物检测法或RIA评估,产后第2天乳汁中大小变体的相对浓度与泌乳大鼠血清中的不成比例。具有生物活性的PRL的大小变体在初乳中丰富,随着泌乳进展逐渐减少:一个部分分离的代表单体到二聚体PRL变体(相对分子量在18k至42k之间)的峰在第2天至第22天之间逐渐变窄。具有生物活性和免疫反应性的PRL呈现出不同的洗脱图谱。产后第2天新生大鼠血清中PRL的洗脱图谱与母鼠血清或乳汁的不同。主要的免疫(可能还有生物)PRL样活性以2.2k和1.5k处的两个相邻峰洗脱,这增加了乳汁中PRL片段在部分蛋白水解降解后从肠道吸收的可能性。与PRL相反,生长激素(GH,仅以微量存在于大鼠乳汁中)在凝胶渗透色谱中,2日龄幼鼠血清中未显示异质性。目前的结果表明,由于采用RIA测量水平,大鼠乳汁和新生大鼠血清中PRL样活性的浓度被严重低估。乳汁和新生鼠血清中PRL的高B/I比值是由于存在PRL相关化合物。(摘要截短于250字)
