Tashjian A H, Bancroft F C, Levine L
J Cell Biol. 1970 Oct;47(1):61-70. doi: 10.1083/jcb.47.1.61.
Several established clonal strains of rat pituitary cells which produce growth hormone in culture have been shown to secrete a second protein hormone, prolactin. Prolactin was measured immunologically in culture medium and within cells by complement fixation. Rates of prolactin production varied from 6.6 to 12 microg/mg cell protein per 24 hr in four different cell strains. In these cultures ratios of production of prolactin to growth hormone varied from 1.0 to 4.1. A fifth clonal strain produced growth hormone but no detectable prolactin. Intracellular prolactin was equivalent to the amount secreted into medium in a period of about 1-2 hr. Both cycloheximide and puromycin suppressed prolactin production by at least 94%. Hydrocortisone (3 x 10(-6)M), which stimulated the production of growth hormone 4- to 8-fold in most of the cell strains, reduced the rate of prolactin production to less than 25% of that in control cultures. Conversely, addition of simple acid extracts of several tissues, including hypothalamus, to the medium of all strains increased the rate of production of prolactin six to nine times and decreased growth hormone production by about 50%. We conclude that multifunctional rat pituitary cells in culture show unusual promise for further studies of the control of expression of organ-specific activities in mammalian cells.
几种在培养中能产生生长激素的大鼠垂体细胞克隆株已被证明能分泌第二种蛋白质激素——催乳素。通过补体结合法对培养基和细胞内的催乳素进行了免疫测定。在四种不同的细胞株中,催乳素的产生速率为每24小时6.6至12微克/毫克细胞蛋白。在这些培养物中,催乳素与生长激素的产生比率在1.0至4.1之间。第五种克隆株产生生长激素,但未检测到催乳素。细胞内的催乳素在大约1 - 2小时内与分泌到培养基中的量相当。放线菌酮和嘌呤霉素均至少抑制94%的催乳素产生。氢化可的松(3×10⁻⁶M)在大多数细胞株中能使生长激素的产生增加4至8倍,但却使催乳素的产生速率降至对照培养物的25%以下。相反,向所有细胞株的培养基中添加包括下丘脑在内的几种组织的简单酸提取物,可使催乳素的产生速率增加6至9倍,并使生长激素的产生减少约50%。我们得出结论,培养中的多功能大鼠垂体细胞对于进一步研究哺乳动物细胞中器官特异性活性表达的调控具有非同寻常的前景。