Production of endometrial placental protein 14 and prolactin by cultured endometrial explants after collagenase and freeze/thaw treatment, and in response to progesterone.

Early pregnancy : biology and medicine : the official journal of the Society for the Investigation of Early Pregnancy Pub Date : 1995-06-01

N A Bersinger, A W Brandenberger, A Zakher, E Dreher, H J Altermatt, M H Birkhäuser

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Abstract

Objective: Investigation of methods for maintaining functional endometrial explants in culture after cryopreservation with or without previous enzymatic dispersion of stromal cells and epithelial glands. Such a standardized culture system is a requirement for the development of a non-invasive bioassay for embryo quality in in vitro fertilization programs, a method that will eventually measure endometrial response to embryo conditioned media.

Method: Culture of mid-luteal phase endometrial biopsies, in the presence of [35S]methionine, with or without prior collagenase treatment and/or storage in liquid nitrogen in the presence of dimethyl sulfoxide. Determination of released de novo synthesized total protein by trichloroacetic acid precipitation of culture media. Measurement, after culture in absence and presence of progesterone, of prolactin and placental protein 14 (PP14) production by sensitive non-isotopic immunoassays.

Results: Production of prolactin, but not PP14, was increased by 200 nmol/l progesterone, 2-8-fold after 4 days and 1.5-700-fold after 7 days in culture. After limited collagenase treatment (but without separation of stromal cells from glands), both marker protein productions were similar compared to untreated explants; however, there was no significant stimulation of prolactin by progesterone. After freezing and thawing, production was markedly reduced, particularly from explants frozen following collagenase treatment.

Conclusions: Both stromal and glandular viability are maintained after collagenase treatment but the response to progesterone is lost. Cryopreservation reduced prolactin and PP14 production in subsequent culture. Therefore, novel freezing protocols should be developed which preserve both endometrial structure and function.

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体外培养的子宫内膜外植体经胶原酶和冻融处理后产生胎盘蛋白14和催乳素，并对黄体酮作出反应。

目的:探讨在基质细胞和上皮腺体酶分散或未酶分散的情况下，冷冻保存后维持子宫内膜功能的方法。这种标准化的培养系统是开发体外受精项目中胚胎质量的非侵入性生物测定的必要条件，这种方法最终将测量子宫内膜对胚胎条件培养基的反应。方法:黄体中期子宫内膜活检培养，在[35S]蛋氨酸存在下，事先或不事先进行胶原酶处理和/或在二甲亚砜存在下的液氮中储存。三氯乙酸沉淀法测定培养基中释放的新生合成总蛋白。在无孕酮和有孕酮培养后，用灵敏的非同位素免疫分析法测定催乳素和胎盘蛋白14 (PP14)的产生。结果:200 nmol/l孕酮可使催乳素的产生增加2-8倍，7 d可使催乳素的产生增加1.5-700倍，但不增加PP14的产生。经过有限的胶原酶处理(但没有从腺体中分离基质细胞)，两种标记蛋白的产生与未处理的外植体相似;而黄体酮对催乳素无明显刺激作用。冷冻和解冻后，产量明显减少，尤其是胶原酶处理后冷冻的外植体。结论:胶原酶治疗后间质和腺体活力均维持，但对黄体酮的反应丧失。低温保存降低了随后培养中催乳素和PP14的产量。因此，应该开发新的冷冻方案，以保护子宫内膜的结构和功能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Early pregnancy : biology and medicine : the official journal of the Society for the Investigation of Early Pregnancy

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