Estrogen-Induced Synthesis of Yolk Proteins in Roosters |
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Authors: | BERGINK, E. WILLEM WALLACE, ROBIN A. VAN DE BERG, JOHAN A. BOS, EBO S. GRUBER, MAX AB, GEERT |
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Affiliation: | Biology Division, Oak Ridge National Laboratory, and The University of Tennessee-Oak Ridge Graduate School of Biomedical Sciences Oak Ridge, Tennessee 37830 Biochemisch Laboratorium, The University Groningen, The Netherlands |
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Abstract: | Vitellogenin is the serum precursor of the yolk proteins -lipovitellin,rß-lipovitellin, and phosvitin. The precursor canbe dissociated to produce the yolk proteins only by proteolyticenzymatic action, to which it is very susceptible. Denaturationin sodium dodecyl sulfate, combined with reduction of disulfidebridges and blocking of thiols, yields a complex with a molecularweight of 200,000 to 250,000. -Lipovitellin contains three polypeptides,with molecular weights of about 135,000, 105,000, and 40,000,and rß-lipovitellin is composed of two polypeptidechains with molecular weights of 135,000 and 30,000. The 40,000subunit of -lipovitellin and both rß-lipovitellinsubunits are phosphopeptides We tested RNA isolated from the liver of estrogen-treated roostersfor mRNA activity in a cell-free reticulocyte system. The vitellogeninmRNA has a sedimentation coefficient greater than 28S and thuscontains enough information to code for a long polypeptide chain.Estrogen administration to roosters induces the appearance ofvitellogenin and a lowdensity lipoprotein, the syntheses ofwhich are not coordinated. The course of vitellogenin synthesiswas calculated from accumulation and turnover data, and it wasfound that from about 25 hr after estradiol-17rß administrationthe rate of vitellogenin synthesis increases linearly for severaldays, paralleling an increase in vitellogenin-synthesizing polysomes.Thus, we estimate a constant translation rate of about 8 aminoacids per ribosome per sec. A "memory" effect is observed when a second hormone dose isgiven some time after the vitellogenin induced by the firstdose has disappeared from the blood. After the second dose vitellogeninsynthesis is detected sooner, and its initial increase is morerapid, than after the first dose. Although the synthesis ofvitellogenin starts 3 to 4 hr after the second as well as afterthe first injection, the rate of synthesis after the first injectionincreases much more slowly during the first 15 hr than duringthe subsequent period of linear accumulation, whereas afterthe second injection the linear increase in the rate of synthesisbegins immediately after the lag period of 3 to 4 hr. The "memory"effect is undiminished even 50 days after the first hormonedose; thus, the causative factor either is very stable or issynthesized in great excess during the first stimulation. Whenthe second injection is given during the descending part ofthe turnover curve, an increase in vitellogenin synthesis isobserved within 3.5 hr. There are thus at least three different effects of estradiol;(i) the "memory" effect, which probably is due to commitmentor differentiation of vitellogenin-synthesizing cells; (ii)the effect that causes the committed cells to give full responseafter the 3- to 4-hr lag period; and (iii) the effect that causesthe immediate response. To explain these results we suggestthat committed cells can synthesize vitellogenin mRNA only duringa certain period of the cell cycle. |
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