Determination of DNA content in the nurse and follicle cells from wild type and mutant Drosophila melanogaster by DNA-Feulgen cytophotometry

DNA replication patterns in the nurse and follicle cells of wild type and a female sterile mutant, fs(1)1304, of Drosophila melanogaster have been studied by DNA-Feulgen cytophotometry, using a cell dispersal technique that allowed the measurement of DNA amounts in individual nuclei from egg chambers of known developmental stages. DNA-Feulgen values associated with various ovarian nuclei from egg chambers at different stages of development were used to assess a base line DNA content for ovarian tissues and to estimate the extent of DNA replication in the nurse cells and follicle cells of growing and mature egg chambers. Our data show that both the nurse and follicle cells undergo multiple cycles of endonuclear DNA replication and that there may be selective amplification as well as underreplication by portions of the genome in these highly polyploid, ovarian cells. Alternative models are proposed to account for the DNA replication patterns observed. Comparisons of DNA-Feulgen levels in wild type ovarian nuclei with those found for the fs(1)1304 mutant and its heterozygote in the balanced stock fs/FM3, show that equivalent DNA levels are present in follicle cell nuclei from all three types of females. Nurse cell nuclei in the homozygous fs stock, however, fail to achieve the same high DNA levels observed in both fs/FM3 and wild type nurse cell nuclei. Although the nuclei of follicle cells in ovaries from fs/fs females appear morphologically like those surrounding egg chambers in wild type ovaries, nurse cell nuclei from mutant females show a more compacted organization of their chromatin than found for nurse cell nuclei from wild type ovaries at similar developmental stages. Our findings suggest that a major effect of the fs(1)1304 mutation may be on the coiling behavior of chromatin and the conformation of DNA-protein moieties in both nurse cell and follicle cell nuclei. These changes in chromatin structure apparently are manifest by perturbations in DNA replication patterns and normal gene function in these biosynthetically active cells.     

3H-uridine incorporation in early porcine embryos.

The present study investigated the ontogeny of 3H-uridine incorporation into RNA as a measure for RNA synthesis in preimplantation porcine embryos from the two-cell stage up to the stage of the newly hatched blastocyst. A total of 568 embryos were cultured in vitro for 3 hr in medium (KRB plus lamb serum) containing 9 microM 3H-uridine. After disruption of cell membranes, RNA was isolated on DEAE cellulose filters, and the radioactivity was taken as a measure for the rate of RNA synthesis. No RNA synthesis was detected at the two-cell stage. From the four-cell to the morula stage, 3H-uridine incorporation per embryo increased about ninefold (P less than 0.001); in blastocyst stages, the increase between developmental stages was not statistically significant. Hatched blastocysts had the highest genomic activity. On a per cell basis, 3H-uridine incorporation was not different from the four-cell stage up to the zona pellucida-intact blastocyst and amounted to 0.29-0.37 fmol 3H-uridine incorporation/cell/3 hr. In hatched blastocysts, 3H-uridine incorporation per blastomere was increased (P less than 0.01 compared with younger stages) and amounted to 0.86 fmol 3H-uridine incorporation/cell/3 hr. It is concluded that 1) the rate of uridine incorporation depends on the cell stage in zona pellucida-intact porcine embryos and 2) uridine incorporation per blastomere is significantly increased in hatched blastocysts compared with earlier stages.     

Yolk polypeptide secretion and vitelline membrane deposition in a female sterile Drosophila mutant

Ovarian follicle cells of wild type Drosophila melanogaster simultaneously secrete yolk polypeptides (YP1, YP2 and YP3) and vitelline membrane proteins. In order to understand the relationship between these two secretory activities, we have investigated the ultrastructure of a female sterile mutation that alters YP1 secretion and vitelline membrane deposition. Homozygous fs(1)1163 females lay eggs that collapse and contain reduced quantities of YP1. Secretory granules in follicle cells contain an electron-translucent component that is assembled into the developing vitelline membrane in both mutant and wild-type ovaries, and an electron-dense component that disperses after secretion in wild-type ovaries. Mutant ovaries differ from wild-type by (1) having larger secretory granules (2) forming clumps of the dense secretory component within the developing vitelline membrane (3) accumulating more tubules in the cortical ooplasm of vitellogenic oocytes, and (4) possessing altered yolk spheres. Mutant ovaries implanted into wild-type hosts showed no improvement in the secretory granules and slight improvement in the vitelline membrane clumps but amelioration of the oocyte phenotypes. Since genetic evidence suggests that the fs(1)1163 mutation resides in or near the Yp1 gene and biochemical data show that the mutation alters YP1 structure, we conclude that the ultrastructural phenotypes are due to a structurally abnormal YP1 in the mutant. The alteration in vitelline membrane structure caused by the dense clumps could account for collapsed eggs and, hence, the female sterility of the mutant.     

RNA biosynthesis in the microsomes of splenic cells during the inductive phase of the immunological response]

RNA labeled with 3H-uridine was extracted from the microsomes of the spleen of the intact and antigen-stimulated mice. A study was made of the composition of this RNA by electrophoresis in polyacrylamide gel. Apart from rRNA, there were revealed in the microsome composition up to 10 RNA components in the mol wt range of from 0.4-10(5) to 7-10(5) dalton and 2 componnents - between 7-10(5) and 1.7-10(6) dalton. Incorporation of 3H-uridine into the rRNA was the maximal 24 hours after the administration of the antigen, whereas the RNA with the mol wt between 0.4-10(5) dalton remaining practically unchanged for a period of three days after the immunization. 3H-uridine incorporation into these RNA was resistant to the action of low antibiotic (actinomycin D) doses. Immunization was not accompanied by the appearance of new, by molecular weight, RNA components.     

Spironolactone antagonism of aldosterone action on Na+ transport and RNA metabolism in toad bladder epithelium.

In earlier studies, aldosterone increased the incorporation of precursors into a class of cytoplasmic RNA with the characteristics of messenger RNA (mRNA), in toad bladder epithelium. In the present studies, this effect was analyzed further with a competitive antagonist, spironolactone (SC-9420). Paired hemibladders were labeled with 3H-uridine (30 min pulse - 140 min chase), with or without aldosterone (3.5 x 10(-8) M, 7 X 10(-8) M) in the presence or absence of SC-9420 (7 X 10(-6) M, 2.5 X 10(-5) M) at molar ratios of 200:1 to 280:1. Cytoplasmic RNA, either the total phenol-SDS extract or polyadenylated-RNA (poly(A)(+)-RNA) obtained by oligo-deoxythymidylate-cellulose (oligo(dT)-cellulose) chromatography was analyzed in linear 5 -- 20% sucrose gradients. Eight sets of experiments were completed in which the short-circuit current (scc) was monitored for 180 min and the incorporation of 3H-uridine (30 min pulse -- 150 min chase) was simultaneously determined on pools of epithelia from 5 to 10 hemibladders. The fractional change in scc correlated linearly with the fractional change in 3H-uridine of 12S cytoplasmic RNA (r=0.95, p less than 0.001). The poly(A)(+)-RNA fraction had no detectable rRNA or tRNA and gave a heterogeneous pattern, typical of mRNA, in the sucrose gradients. In the presence of exogenous aldosterone, SC-9420 inhibited the incorporation of 3H-uridine into poly(A)(+)-RNA (particularly 12S). These results support the inference that induction of mRNA mediates the action of aldosterone on Na+ transport.     

Change in the concentration and intensity of synthesis of RNA in cell cultures of Chironomus thummi during metamorphosis

The content and intensity of incorporation of 3H-uridine in RNA of chromosomes, nucleoli and cytoplasm isolated by microsurgery from the salivary glands of larvae and prepupae of Chironomus thummi were studied following the incubation of salivary glands in the Cannon's medium with 3H-uridine. It was shown that during metamorphosis the content of RNA and intensity of 3H-uridine incorporation decrease in the nucleolus and cytoplasm in a prepupa, as compared with a larva, and suffer no changes in chromosomes in spite of much larger size of many puffs in a prepupa. The patterns of RNA synthesis in the salivary glands of larvae during metamorphosis are discussed.     

Gene activity during germination of spores of the fern, Onoclea sensibilis: RNA and protein synthesis and the role of stored mRNA

Pattern of 3H-uridine incorporation into RNA of spores of Onoclea sensibilis imbibed in complete darkness (non-germinating conditions) and induced to germinate in red light was followed by oligo-dT cellulose chromatography, gel electrophoresis coupled with fluorography and autoradiography. In dark-imbibed spores, RNA synthesis was initiated about 24 h after sowing, with most of the label accumulating in the high mol. wt. poly(A) -RNA fraction. There was no incorporation of the label into poly(A) +RNA until 48 h after sowing. In contrast, photo-induced spores began to synthesize all fractions of RNA within 12 h after sowing and by 24 h, incorporation of 3H-uridine into RNA of irradiated spores was nearly 70-fold higher than that into dark-imbibed spores. Protein synthesis, as monitored by 3H-arginine incorporation into the acid-insoluble fraction and by autoradiography, was initiated in spores within 1-2 h after sowing under both conditions. Autoradiographic experiments also showed that onset of protein synthesis in the cytoplasm of the germinating spore is independent of the transport of newly synthesized nuclear RNA. One-dimensional sodium dodecyl sulphate-polyacrylamide gel electrophoresis of 35S-methionine-labelled proteins revealed a good correspondence between proteins synthesized in a cell-free translation system directed by poly(A) +RNA of dormant spores and those synthesized in vivo by dark-imbibed and photo-induced spores. These results indicate that stored mRNAs of O. sensibilis spores are functionally competent and provide templates for the synthesis of proteins during dark-imbibition and germination.     

Macromolecular synthesis and stability in growth-arrested BALB/c-3T3 cells

Concentrations of methylglyoxal bis-(guanylhydrazone) (mGBG) that inhibited serum-stimulated BALB/c-3T3 cells in late G1 caused a marked inhibition of 3H-leucine incorporation during a 20-min incubation. No decrease was observed in the incorporation of 3H-uridine during a 20-min incubation; however, the amount of acid-insoluble 3H-uridine in mGBG-treated cultures was decreased when the incubation period was longer than 20 min. The amount of the decrease in the accumulation of incorporated 3H-uridine was directly proportional to the length of the incorporation time. Between 10 and 12 h after quiescent BALB/c-3T3 cells were serum-stimulated in mGBG no additional 3H-uridine was accumulated. The stability of the incorporated 3H-uridine, as determined by acid-insoluble radioactivity remaining after the addition of actinomycin D, was less in cells cultured in mGBG. Exogenous spermine or spermidine reversed the inhibition of 3H-uridine accumulation in acid-insoluble material produced by mGBG as well as the decrease in stability of the incorporated 3H-uridine in acid-insoluble material. The effects of mGBG on both the incorporation of 3H-uridine and the stability of the incorporated 3H-uridine can apparently be accounted for by an effect on ribosomal RNA.     

RNA synthesis during the stationary growth phase in the Bacillus subtilis Cgr4 mutant

RNA synthesis was studied in Bacillus subtilis Cgr4 grown in the mineral sporulation medium enriched with glucose up to 2% and amino acids up to 1%. To study mRNA synthesis, a method of transfer of the 3H-uridine pulse-labeled culture to the supernatant of physiologically identical, not labeled culture, followed by further incubation was used, the amount of 3H-uridine in the supernatant as well as in cells being measured. RNA was also analysed electrophoretically and distribution of the label among the fractions was determined. It is shown that mRNA synthesized in the logarithmic phase degrades up to 12% on the 2nd hour of growth during 10 min; the mRNA in the stationary phase is stable on the 7th hour of growth; no degradation is observed in the course of 2-3 hours. The beginning of degradation coincides in time with secondary induction of the synthesis of serine proteases and with the onset of sharp decrease in incorporation of 3H-uridine in RNA as well as with induction of spore morphogenesis. On the basis of electrophoretical analysis of pulse-labeled RNA, it was demonstrated that, prior to the transfer, labeled uridine was included and preserved in RNA fraction for 2-3 hours after the transfer, this fraction corresponding in mobility with mRNA in polyacrylamide gel. The following conclusion may be drawn: stable mRNAs are synthesized in the stationary phase and may be used for the translation of extracellular serine protease.     

Embryonic development of 2 strains of mice in the early cleavage period

RNA metabolism at 1-, 2- and 8-celled stages was studied in C3H and C57Bl mice by means of detection of RNA content in individual embryos and microcolumnal chromatography of lysate of the embryos labelled with 3H-uridine. The increase of RNA content in the 8-celled embryos of the both strains is due to active synthesis of high and low molecular weight RNAs during this period. A comparison of 3H-uridine incorporation in RNA, and nucleotide fractions of 2-celled embryos has shown that the embryonic genome per se is activated earlier in C3H mice. The embryonic development and RNA changes in them are similar in the pure bred and hybrid embryos with common mothers. This serves as an additional evidence of the leading role of maternal factors in embryonic development during the first cleavage divisions.     

Accumulation of RNA in blastocysts during embryonic diapause and the periimplantation period in the western spotted skunk

The in vivo incorporation of 3H-uridine into RNA was studied in delayed implanting and activated blastocysts obtained from 33 western spotted skunks. 3H-uridine was incorporated into RNA by all blastocysts; however, significantly more label was incorporated as blastocyst diameter increased. Activated blastocysts with diameters of 1.6 mm or greater on average incorporated 65 times more 3H-precursor in 5 hr than diapausing blastocysts with diameters of 1.1 mm or less. Polyadenylated RNA was likewise synthesized by delayed implanting and activated skunk blastocysts; however, the proportion of polyadenylated RNA synthesized by the former was greater than in the latter (43.9% vs. 27.5%). Our data suggest that the transition from embryonic diapause to fully activated blastocysts first occurs gradually for several days before entering a 1-2-day period of rapid development characterized by an abrupt increase in RNA accumulation.     

A test system for the measurement of cellular RNA-synthesis in the human bone marrow]

A test for the cellular RNA-synthesis (incorporation of 3H-uridine in the RNA) of human bone marrow has been standardized with respect to the time of incorporation, the number of cells and the concentration of 3H-uridine. The following parameters were estimated for 500 microleter standard assay and 100 microleter aliquots for the determination of the radioactivity: time of incubation 80 min, number of nucleated cells 8 - 10(5), concentration of 3H-uridine 8,3 - 10(-6) M. Actinomycin D inhibits the RNA-synthesis to 90% in a concentration of 1.2 - 10(2) microgram/ml. The test appears generally applicable for the determination of the vitality of bone marrow after cryopreservation, the testing of cryoprotectants and haematotoxic substances and the control of the reaction of the bone marrow during chemical- or irradiation treatment of tumors.     

RNA synthesis in the ovary and oocytes of the starfish

Qualitative studies on the in vitro uptake and incorporation of tritiated uridine into RNA of the somatic and germinal elements of the starfish ovary were carried out prior to and during hormone-induced oocyte maturation and spawning.Autoradiography of nonhormone-treated ovaries indicated that the outer ovarian wall contained the highest concentration of label, with lesser amounts in the follicle cells and least in the oocytes. Oocytes and follicle cells localized at the periphery of the ovary were labeled first, and both cells became progressively labeled throughout the ovary with time; the label first appeared localized in the nucleolus of the oocyte.Sucrose gradient analysis of the separated cellular components of prelabeled hormone-treated ovaries indicated that RNA synthesis occurred in all segments of the ovary and that the spawned oocyte fraction was the least active. Synthesis of ribosomal RNA was detectable after a lag period of approximately 4 hr. Oocytes incubated in ³H-uridine during and subsequent to 1-methyladenine-induced spawning and maturation synthesized 15–19 S and low molecular weight RNA but not ribosomal RNA. Synthesis of the 15–19 S RNA was inhibited with ethidium bromide and to a limited extent by actinomycin D. Isolated mitochondrial fractions contained most of the labeled 15–19 S RNA. These data suggest the mitochondrial origin of most, if not all, of this intermediate-weight RNA. On the basis of these studies, it appears that starfish oocytes and follicle cells are metabolically active at the transitional period from growth to maturational stages in oocytes. Synthesis of RNA furthermore apparently continues in the cytoplasm subsequent to germinal vesicle breakdown and spawning.     

A clonal analysis of the roles of somatic cells and germ line during oogenesis in Drosophila

In order to test whether particular female sterile mutations block functions which normally occur in somatic or germ line derivatives, clones homozygous for each mutation were X-ray induced in heterozygous females. Using the germ line-dependent egg marker, fs(1)K10, it was possible to identify the eggs derived from clones which had been induced in the germ line. Mutations were classified as germ line dependent when these eggs also showed the phenotype associated with the female sterile mutation. Two mutations which caused early abnormalities in oogenesis (fs(1)116, fs(1)1304) were shown to affect germ cells, whereas two mutations which caused egg retention (fs(1)462, fs(1)1001) were somatically dependent. A mutation altering egg dimensions without affecting egg volume (short egg) was also shown to depend on somatic cells in the ovary. With one exception (fs(1)K4), mutations which caused production of fragile, collapsed eggs (fs(1)180, fs(1)473, fs(1)384, and fs(1)1163) were somatically dependent. Patches of mutant fs(1)384 morphology were found in the chorions of the eggs not derived from germ line clones. These patches are interpreted as being caused by homozygous clones in the somatically derived follicle cell epithelium and suggest that fs(1)384 affects processes occurring in these cells during the synthesis of the egg coverings.     

Intact testosterone receptor complex does not induce RNA synthesis of tfm-nuclei in multinucleated urethral muscle fibres of mosaic mice

Summary The X-linked testicular feminization mutation (Tfm) of the mouse leads to androgen insensitivity of target cells. Through the autosomal sex reversed (Sxr) factor we have converted female heterozygotes into males. Due to X-inactivation, mosaic animals arise which are composed of androgen sensitive wild-type and androgen insensitive Tfm cells. In the androgen dependent striated urethral muscle, Tfm and wild-type cells fuse and form multinucleated muscle fibres. In the muscle fibres the Tfm nuclei are exposed to the intact cytoplasmic testosterone receptor complex coded for by the wildtype nuclei. We ask the question whether under these conditions RNA synthesis can be stimulated in the Tfm nuclei. Castrated mosaic animals were injected with testosterone, and incorporation of ³H-uridine was studied by autoradiography. We found two classes of muscle cell nuclei, those with low grain counts corresponding to the Tfm controls and those with high grain counts corresponding to the stimulated male controls. The results indicate that the Tfm nuclei are not stimulated by the intact testosterone receptor complex.This study is dedicated to Prof. Dr. W. Graumann on occasion of his 65th birthday     

Nonvitellogenic female sterile mutants and the regulation of vitellogenesis in Drosophila melanogaster.

The genetic and endocrine regulation of vitellogenesis was investigated by studying 18 female sterile mutations that disrupt the development of normal vitellogenic follicles. Applications of exogenous juvenile hormone analog and reciprocal ovarian transplants between flies of different genotypes were employed to accomplish our first two objectives: to find (1) whether the mutation blocked development of the ovary directly, and (2) whether the mutation altered the hormonal milieu. In 15 of the mutants the developmental defect was localized to the ovary, but in the other 3 the ovary was competent to respond to a permissive environment. The internal milieu of these three mutants (ap⁴, fs(3)A1, fs(2)A18) was unable to provoke normal development in wild-type ovaries, suggesting that these mutations cause endocrine defects. Our third objective was to find whether an endocrine organ was itself defective in any of these mutants. The corpus allatum from two of the mutants was unable to provoke vitellogenesis in isolated wild-type abdomens, but corpora allata from wild-type females or from other mutants were able to promote maturation of ovarian follicles in isolated abdomens. Our fourth objective was to find whether any of the mutants were able to produce yolk proteins. Immunoelectrophoresis of fly hemolymph demonstrated that in all mutants tested vitellogenins were found in the blood. These experiments permit four main conclusions. First, they identify the first Drosophila mutants in which an endocrine gland is shown to be intrinsically defective during adulthood. Second, they show that the production of morphologically normal late previtellogenic follicles is not required for the induction of vitellogenin synthesis and secretion. Third, they show that juvenile hormone can cause ovarian follicles to sequester yolk in mutant flies. And finally, they show that mutants with defective corpora allata still synthesize and secrete vitellogenin. Taken together, these conclusions suggest that in Drosophila melanogaster the uptake of vitellogenin into follicles depends upon the availability of juvenile hormone, but that the synthesis and secretion of vitellogenin are independent of both normal ovaries and totally normal corpora allata.     

Functional characterization of a GJA1 frameshift mutation causing oculodentodigital dysplasia and palmoplantar keratoderma

A frameshift mutation generated from a dinucleotide deletion (780-781del) in the GJA1 gene encoding Cx43 results in a frameshift yielding 46 aberrant amino acids after residue 259 and a shortened protein of 305 residues compared with the 382 in wild-type Cx43. This frameshift mutant (fs260) causes oculodentodigital dysplasia (ODDD) that includes the added condition of palmoplantar keratoderma. When expressed in a variety of cell lines, the fs260 mutant was typically localized to the endoplasmic reticulum and other intracellular compartments. The fs260 mutant, but not the G138R ODDD-linked Cx43 mutant or a Cx43 mutant truncated at residue 259 (T259), reduced the number of apparent gap junction plaques formed from endogenous Cx43 in normal rat kidney cells or keratinocytes. Interestingly, mutation of a putative FF endoplasmic reticulum retention motif encoded within the 46 aberrant amino acid domain failed to restore efficient assembly of the fs260 mutant into gap junctions. Dual whole cell patch-clamp recording revealed that fs260-expressing N2A cells exerted severely reduced electrical coupling in comparison to wild-type Cx43 or the T259 mutant, whereas single patch capacitance recordings showed that fs260 could also dominantly inhibit the function of wild-type Cx43. Co-expression studies further revealed that the dominant negative effect of fs260 on wild-type Cx43 was dose-dependent, and at a predicted 1:1 expression ratio the fs260 mutant reduced wild-type Cx43-mediated gap junctional conductance by over 60%. These results suggest that the 46 aberrant amino acid residues associated with the frameshift mutant are, at least in part, responsible for the manifestation of palmoplantar keratoderma symptoms.