MOF maintains transcriptional programs regulating cellular stress response.

MOF (MYST1, KAT8) is the major H4K16 lysine acetyltransferase (KAT) in Drosophila and mammals and is essential for embryonic development. However, little is known regarding the role of MOF in specific cell lineages. Here we analyze the differential role of MOF in proliferating and terminally differentiated tissues at steady state and under stress conditions. In proliferating cells, MOF directly binds and maintains the expression of genes required for cell cycle progression. In contrast, MOF is dispensable for terminally differentiated, postmitotic glomerular podocytes under physiological conditions. However, in response to injury, MOF is absolutely critical for podocyte maintenance in vivo. Consistently, we detect defective nuclear, endoplasmic reticulum and Golgi structures, as well as presence of multivesicular bodies in vivo in podocytes lacking Mof following injury. Undertaking genome-wide expression analysis of podocytes, we uncover several MOF-regulated pathways required for stress response. We find that MOF, along with the members of the non-specific lethal but not the male-specific lethal complex, directly binds to genes encoding the lysosome, endocytosis and vacuole pathways, which are known regulators of podocyte maintenance. Thus, our work identifies MOF as a key regulator of cellular stress response in glomerular podocytes.

Cell-specific, developmentally and hormonally regulated expression of the rabbit uteroglobin transgene and the endogenous mouse uteroglobin gene in transgenic mice.

We have generated a transgenic mouse line by introducing the rabbit uteroglobin gene with 4 kb of 5'-flanking DNA and 1 kb of 3'-flanking DNA into the mouse germ line via microinjection into fertilized oocytes. Expression of the rabbit uteroglobin transgene was examined and compared with the endogenous mouse uteroglobin gene. Both genes are expressed in the lung, male genital tract and uterus. In the lung, mRNA expression is enhanced by glucocorticoids and restricted to the Clara cells that line terminal and respiratory bronchioli. During embryonic lung development, transcripts are first detected at day 17. Expression in the uterus is restricted to the glandular epithelium and can be induced by sequential treatment with estrogens and progesterone. In the uterus of these pseudopregnant mice the level of rabbit uteroglobin transcripts is higher than that of the mouse endogenous uteroglobin transcripts. In the male genital tract, expression of both genes is restricted to the epithelial layers of the vesicular gland, vas deferens and epididymis. Our results indicate that the rabbit uteroglobin gene together with 4 kb of 5'-flanking DNA and 1 kb of 3'-flanking DNA contains the information required for cell type-specific, developmentally, and hormonally regulated expression.

MOZ (MYST3, KAT6A) inhibits senescence via the INK4A-ARF pathway.

Cellular senescence is an important mechanism that restricts tumour growth. The Ink4a-Arf locus (also known as Cdkn2a), which encodes p16(INK4A) and p19(ARF), has a central role in inducing and maintaining senescence. Given the importance of cellular senescence in restraining tumour growth, great emphasis is being placed on the identification of novel factors that can modulate senescence. The MYST-family histone acetyltransferase MOZ (MYST3, KAT6A), first identified in recurrent translocations in acute myeloid leukaemia, has been implicated in both the promotion and inhibition of senescence. In this study, we investigate the role of MOZ in cellular senescence and show that MOZ is a potent inhibitor of senescence via the INK4A-ARF pathway. Primary mouse embryonic fibroblasts (MEFs) isolated from Moz-deficient embryos exhibit premature senescence, which was rescued on the Ink4a-Arf(-/-) background. Importantly, senescence resulting from the absence of MOZ was not accompanied by DNA damage, suggesting that MOZ acts independently of the DNA damage response. Consistent with the importance of senescence in cancer, expression profiling revealed that genes overexpressed in aggressive and highly proliferative cancers are expressed at low levels in Moz-deficient MEFs. We show that MOZ is required to maintain normal levels of histone 3 lysine 9 (H3K9) and H3K27 acetylation at the transcriptional start sites of at least four genes, Cdc6, Ezh2, E2f2 and Melk, and normal mRNA levels of these genes. CDC6, EZH2 and E2F2 are known inhibitors of the INK4A-ARF pathway. Using chromatin immunoprecipitation, we show that MOZ occupies the Cdc6, Ezh2 and Melk loci, thereby providing a direct link between MOZ, H3K9 and H3K27 acetylation, and normal transcriptional levels at these loci. This work establishes that MOZ is an upstream inhibitor of the INK4A-ARF pathway, and suggests that inhibiting MOZ may be one way to induce senescence in proliferative tumour cells.

Oxytocin/neurophysin-I messenger ribonucleic acid in bovine granulosa cells increases after the luteinizing hormone (LH) surge and is stimulated by LH in vitro.

Bovine granulosa cells express the oxytocin/neurophysin-I (OT/NP-I) gene and secrete OT in vitro. We have shown previously that bovine granulosa cells isolated from the preovulatory follicle after the LH surge secrete 20 times more OT over 5 days in culture than granulosa cells obtained before the surge. LH or FSH stimulates OT secretion in vitro by granulosa cells isolated before the LH surge. We also observed that granulosa cells of preovulatory follicles isolated before the LH surge respond to OT with an increase in progesterone secretion, suggesting that OT may be involved in regulating the follicular/luteal phase shift, or ovulation, in an autocrine fashion. The objective of this study was to determine whether the increase in OT secretion from granulosa cells after the LH surge is regulated at the level of mRNA accumulation, peptide synthesis, and/or peptide secretion. Bovine preovulatory follicles were obtained during the early follicular phase (approximately 36 h before the LH surge), during the midfollicular phase (approximately 12 h before the LH surge), or during the late follicular phase (after the LH surge). Total RNA isolated from granulosa cells and theca interna at the time of cell isolation or after culture with or without LH was subjected to Northern analysis for OT/NP-I mRNA and quantified by densitometry. OT/NP-I mRNA was not detectable or was barely detectable in granulosa cells collected during the early or midfollicular phase (n = 6 and n = 4 follicles, respectively), but a strong hybridization signal was obtained from RNA isolated after the LH surge (n = 5 follicles; P < 0.01). In contrast, OT/NP-I mRNA was not detectable in theca interna before or after the LH surge. Although OT/NP-I mRNA was not detectable in granulosa cells isolated 24 h after prostaglandin F2 alpha injection, after 24 h in culture, a weak OT/NP-I mRNA hybridization signal was observed in RNA from granulosa cells in LH-containing cultures. After 72 h in culture, granulosa cells cultured in control, as well as in LH-containing medium, exhibited a strong signal for OT/NP-I mRNA, but granulosa cells treated with LH exhibited a stronger OT/NP-I hybridization signal than control cultures (P < 0.01). Theca interna did not yield any OT/NP-I hybridization signal initially, and none was induced in culture.(ABSTRACT TRUNCATED AT 400 WORDS)

Oxytocin secretion by bovine granulosa cells: effects of stage of follicular development, gonadotropins, and coculture with theca interna.

Oxytocin (OT) has been detected in ruminant preovulatory follicles. Bovine granulosa cells express the oxytocin/neurophysin I (OT/NP-I) gene and secrete OT in vitro. The objective of this study was to determine the developmental pattern of OT secretion by bovine follicle cells as they differentiate during the follicular phase and the preovulatory follicle approaches ovulation. Holstein heifers were injected with prostaglandin F2 alpha in midluteal phase to induce luteal regression and initiate a follicular phase. The ovary bearing the preovulatory follicle was obtained by ovariectomy early in the follicular phase, in midfollicular phase, or late in the follicular phase, after the LH/FSH surge (n = 4 heifers per group). Theca interna and granulosa cells were isolated and cultured for 5 days, individually or in coculture, in defined or serum-containing medium and with or without LH (300 ng/ml) or FSH (300 ng/ml). Media were collected and replaced completely every 24 h, and OT secreted into the media was measured by RIA. Granulosa cells isolated at all three time points during the follicular phase secreted measurable amounts of OT. However, total OT secretion by granulosa cells isolated after the LH/FSH surge was 18.9-fold (defined medium) to 64.8-fold (serum-containing medium) higher than OT secretion by granulosa cells isolated early in the follicular phase, and 14.6-fold (defined medium) to 170-fold (serum-containing medium) higher than OT secretion by granulosa cells isolated in midfollicular phase. Granulosa cells isolated before the LH/FSH surge responded to the addition of LH or FSH to the culture medium with an increase in OT secretion. Cocultures of granulosa cells and theca interna isolated before the LH surge secreted more OT than cultures of granulosa cells alone. When cells were isolated early in the follicular phase the effect of coculture was more than additive, but the effect of coculture was only additive when follicles were obtained in midfollicular phase. OT secretion by granulosa cells isolated after the LH/FSH surge was not affected by gonadotropins or by coculture with theca interna. In contrast to results for granulosa cells, theca interna secreted only small and variable amounts of OT, and responses to LH were inconsistent. These findings suggest that OT detected in cultures of theca interna may be produced by small and variable numbers of granulosa cells contaminating the theca interna preparation.(ABSTRACT TRUNCATED AT 400 WORDS)

Levels of messenger ribonucleic acid for cholesterol side-chain cleavage cytochrome P-450 and 3 beta-hydroxysteroid dehydrogenase in bovine preovulatory follicles decrease after the luteinizing hormone surge.

During the follicular/luteal phase shift in steroidogenesis, follicular steroid production changes from predominantly estradiol and androgen secretion before the LH surge to decreased androgen and estrogen and increased progesterone after the LH surge. Our objective was to determine whether changes in progesterone production by the preovulatory follicle are effected via changes in mRNA levels for the steroidogenic enzymes cholesterol side-chain cleavage cytochrome P450 (P450scc) and 3 beta-hydroxysteroid dehydrogenase/delta 5-delta 4-isomerase (3 beta HSD). Bovine preovulatory follicles were obtained in the early follicular phase (n = 9 follicles), the midfollicular phase (n = 4), or the late follicular phase (after the LH surge, but before ovulation; n = 5). Total RNA extracted from granulosa cells and theca interna at the time of cell isolation or after 24 or 72 h of culture in control or LH-containing medium was subjected to Northern analysis, and autoradiographs were scanned densitometrically. P450scc mRNA levels in granulosa cells were high in the early follicular phase and decreased by 96% after the LH surge (P < 0.05). 3 beta HSD mRNA levels in granulosa cells were 4.2-fold higher in early vs. late follicular phase (P < 0.01). In theca interna, 3 beta HSD mRNA levels were 3.6- and 2.6-fold higher in the early vs. the mid- and late follicular phase (P < 0.05), but levels of P450scc mRNA did not differ significantly with stage of follicular development. After granulosa cells had been cultured for 24 h in control or LH-containing medium, P450scc and 3 beta HSD mRNA had declined dramatically compared to mRNA levels at the time of cell isolation during the early follicular phase (P < 0.01). However, after 72 h in control or LH-containing medium, an increase in P450scc and 3 beta HSD mRNA was observed relative to levels at 24 h (P < 0.01). After 72 h of culture, the signal for P450scc and 3 beta HSD mRNA in granulosa cells exposed to LH was higher than the signal detected in cultures without LH (P < 0.01). Similar changes in message for P450scc were observed in cultured thecal cells. Thus, the previously observed increases in production of progesterone by bovine theca interna and granulosa cells obtained after vs. before the LH surge cannot be explained by an increase in message for P450scc and 3 beta HSD.(ABSTRACT TRUNCATED AT 400 WORDS)

Levels of messenger ribonucleic acid for cytochrome P450 17 alpha-hydroxylase and P450 aromatase in preovulatory bovine follicles decrease after the luteinizing hormone surge.

During the transition from the follicular to the luteal phase, follicular steroid secretion shifts from predominantly 17 beta-estradiol and androgen production before the LH surge to decreased androgen and estrogen and increased progesterone production after the LH surge. Our objective was to determine if changes in 17 beta-estradiol and androgen production by the preovulatory follicle are effected via changes in mRNA levels for the steroidogenic enzymes cytochrome P450 17 alpha-hydroxylase/C17, C20-lyase (P450-17 alpha) and cytochrome P450 aromatase (P450arom). Heifers were injected with prostaglandin F2 alpha (PGF2 alpha) during the luteal phase to initiate luteolysis and a follicular phase. Preovulatory follicles were obtained at two times before the LH surge, in the early follicular phase (24 h after PGF2 alpha injection) and in the midfollicular phase (48 h after PGF2 alpha), and at one time in the late follicular phase, after the LH surge but before ovulation (20 h after the onset of estrus, about 20 h after the LH surge). Granulosa cells and theca interna were isolated from preovulatory follicles obtained during the early follicular phase and cultured with or without ovine LH (100 ng/ml; n = 4 follicles isolated 24 h after PGF2 alpha). Total RNA extracted from granulosa cells and theca interna, either immediately after cell isolation during the early (n = 5), mid (n = 4)-, or late follicular phase (n = 5) or after 24 or 72 h of culture, was subjected to Northern analysis for P450-17 alpha and P450arom mRNA. Autoradiographs were scanned densitometrically, and values were adjusted for loading and transfer efficiency. P450-17 alpha mRNA was highly abundant in theca interna before the LH surge, but decreased by 96% after the LH surge (P < 0.001). In contrast, P450-17 alpha mRNA in the granulosa cell fraction was very low at all three times of follicle isolation and most likely was due to a slight contamination of the granulosa cell preparation with theca interna. P450arom mRNA was abundant in granulosa cells isolated in the early and midfollicular phase, but decreased by 94% after the LH surge (P < 0.001). In contrast, P450arom mRNA was undetectable in theca interna. Levels of androstenedione and 17 beta-estradiol in follicular fluid were high during the early and midfollicular phase and decreased dramatically after the LH surge (P < 0.05 and P < 0.001, respectively). P450-17 alpha and P450arom mRNA were undetectable after 24 h of culture in the presence or absence of LH and thereafter.(ABSTRACT TRUNCATED AT 400 WORDS)

Oxytocin stimulates progesterone production by bovine granulosa cells isolated before, but not after, the luteinizing hormone surge.

Oxytocin and its mRNA have been detected in bovine granulosa cells, but the function of follicular oxytocin is not well understood. We have shown previously that oxytocin exerts a specific, dose-dependent, stimulatory effect on progesterone secretion by granulosa, but not theca cells isolated from bovine preovulatory follicles obtained 48 h after the initiation of luteolysis. The objective of the present study was to characterize the development of granulosa cell responsiveness to oxytocin during the follicular phase. Granulosa cells and theca interna were isolated form preovulatory follicles early in the follicular phase (24 h after the initiation of luteolysis) or after the luteinizing hormone (LH) surge and cultured in defined medium for 5 days with or without oxytocin and in the presence or absence of gonadotropins. Granulosa, but not theca cells obtained before the LH surge increased progesterone production 3.3-fold in response to oxytocin. However, late in the follicular phase, after the LH surge, granulosa cells did not respond to oxytocin (or to follicle-stimulating hormone (FSH) or LH). These findings suggest that the LH surge (1) stimulates granulosa cells to maximal progesterone secretion, so that they cannot be further stimulated, (2) abolishes the responsiveness of granulosa cells to oxytocin, or (3) stimulates granulosa cells to increase oxytocin production, so that exogenous oxytocin has no additional effect.

Oxytocin gene expression and action in bovine preovulatory follicles.

We have studied oxytocin (OT) gene expression, secretion, and action in bovine preovulatory follicles during the follicular phase of the estrous cycle. OT is secreted in vitro by follicular granulosa cells, but not by theca cells. Both OT content of granulosa cells and their ability to secrete OT in culture increased dramatically when follicles were obtained after the gonadotropin surge (LH surge) that triggers ovulation. These changes were correlated with increased levels of messenger RNA (mRNA) for OT in granulosa cells obtained after vs. before the LH surge. When granulosa cells were obtained before the surge, both OT secretion and OT mRNA levels increased with time in culture, and the increases were greatly enhanced in the presence of LH. Estradiol, at concentrations found in follicular fluid of preovulatory follicles before the LH surge, inhibited OT secretion in vitro, whereas concentrations found in follicular fluid after the LH surge were not inhibitory. Progesterone, at physiological concentrations, stimulated OT secretion in vitro. We have shown previously that OT increases progesterone secretion by granulosa cells obtained before the LH surge. Taken together these results show that, during the follicular phase in cattle, OT secretion and gene expression are coordinately regulated and suggest that they are regulated by both gonadotropins and intrafollicular steroids. Increases in OT after the LH surge may play a role in the follicular/luteal phase shift in steroidogenesis from estradiol/androgen to progesterone.

A comparison of mouse and rabbit embryos for the production of transgenic animals by pronuclear microinjection.

Procedures for the production of transgenic animals have low overall efficiency. To evaluate factors responsible for low efficiency, zygotes of two species, varying intensities of microscope light, different qualities of injection pipettes, and six different genes were tested for their influence on the efficiency of pronuclear gene injection for the production of transgenic rabbits and mice. Rabbit zygotes were less sensitive to mechanical manipulation during injection than mouse zygotes. Exposing zygotes to a microscope light intensity of 5550 lx significantly reduced their cleavage rate, while a lower intensity (2280 lx) did not. Using pipettes with a filament for pronuclear gene injection of mouse zygotes resulted in a higher cleavage rate of zygotes after injection than when pipettes were used without filament (30.3 vs 20.6%). Implantation rates varied between 2.9% (HB72CAT) and 23.1% (ts 58-2) depending on the gene used. No transgenic animals were obtained after injection of uteroglobin-CAT-hybrid genes (B2B3UGCAT, HB72CAT), while all other genes used (UG 11.8, UGTAg, RSV lacZ, ts 58-2) resulted in transgenic embryos, fetuses, and newborn animals.

[Gene transfer in laboratory animals]. / Gentransfer bei Labortieren.

Describing purpose and method of genetransfer by pronuclear microinjection comprehensively application on laboratory animals are reviewed. Experiments on the production of rabbits and mice transgenic for several uteroglobin-hybrid-genes (B2B3UG CAT; H/B/72/CAT; UG TAg; UG 11.8) were performed and resulted in four rabbit fetuses and one stillborne rabbit transgenic for UG TAg and one mouse transgenic for UG 11.8. These experiments are part of investigations on uteroglobin as a model of geneexpression regulated by steroid hormones.

Pro-apoptotic BIM is an essential initiator of physiological endothelial cell death independent of regulation by FOXO3.

The growth of new blood vessels by angiogenesis is essential for normal development, but can also cause or contribute to the pathology of numerous diseases. Recent studies have shown that BIM, a pro-apoptotic BCL2-family protein, is required for endothelial cell apoptosis in vivo, and can contribute to the anti-angiogenic effect of VEGF-A inhibitors in certain tumor models. Despite its importance, the extent to which BIM is autonomously required for physiological endothelial apoptosis remains unknown and its regulation under such conditions is poorly defined. While the transcription factor FOXO3 has been proposed to induce Bim in response to growth factor withdrawal, evidence for this function is circumstantial. We report that apoptosis was reduced in Bim(-/-) primary endothelial cells, demonstrating a cell-autonomous role for BIM in endothelial death following serum and growth factor withdrawal. In conflict with in vitro studies, BIM-dependent endothelial death in vivo did not require FOXO3. Moreover, endothelial apoptosis proceeded normally in mice lacking FOXO-binding sites in the Bim promoter. Bim mRNA was upregulated in endothelial cells starved of serum and growth factors and this was accompanied by the downregulation of miRNAs of the miR-17∼92 cluster. Bim mRNA levels were also elevated in miR-17∼92(+/-) endothelial cells cultured under steady-state conditions, suggesting that miR-17∼92 cluster miRNAs may contribute to regulating overall Bim mRNA levels in endothelial cells.

Consequences of the combined loss of BOK and BAK or BOK and BAX.

The multi-BCL-2 homology domain pro-apoptotic BCL-2 family members BAK and BAX have critical roles in apoptosis. They are essential for mitochondrial outer-membrane permeabilization, leading to the release of apoptogenic factors such as cytochrome-c, which promote activation of the caspase cascade and cellular demolition. The BOK protein has extensive amino-acid sequence similarity to BAK and BAX and is expressed in diverse cell types, particularly those of the female reproductive tissues. The BOK-deficient mice have no readily discernible abnormalities, and its function therefore remains unresolved. We hypothesized that BOK may exert functions that overlap with those of BAK and/or BAX and examined this by generating Bok(-/-)Bak(-/-) and Bok(-/-)Bax(-/-) mice. Combined loss of BOK and BAK did not elicit any noticeable defects, although it remains possible that BOK and BAK have critical roles in developmental cell death that overlap with those of BAX. In most tissues examined, loss of BOK did not exacerbate the abnormalities caused by loss of BAX, such as defects in spermatogenesis or the increase in neuronal populations in the brain and retina. Notably, however, old Bok(-/-)Bax(-/-) females had abnormally increased numbers of oocytes from different stages of development, indicating that BOK may have a pro-apoptotic function overlapping with that of BAX in age-related follicular atresia.

Breaking an absolute species barrier: transgenic mice expressing the mink PrP gene are susceptible to transmissible mink encephalopathy.

Transmissible mink encephalopathy (TME) is a rare disease of the North American mink, which has never been successfully transmitted to laboratory mice. We generated transgenic mice expressing the mink prion protein (PrP) and inoculated them with TME or the mouse-adapted scrapie strain 79A. TME infected mink PrP-transgenic mice on a murine PrP knockout background. The absolute species barrier between the infectious agent of TME and mice was therefore broken. Following TME and 79A infection of mice carrying both mink and murine PrP(C), only proteinase-resistant PrP homologous to the incoming agent was detectable. The presence of the murine PrP(C) prolonged the incubation time of TME substantially.

Estradiol-17 beta has a biphasic effect on oxytocin secretion by bovine granulosa cells.

The peptide hormone oxytocin (OT) and its mRNA are synthesized by bovine granulosa cells. Bovine granulosa cells isolated before the preovulatory LH/FSH surge secrete low amounts of OT and respond to gonadotropins with an increase in OT secretion. After the LH/FSH surge, basal OT secretion increases 20-fold. At the same time, dramatic changes in steroidogenesis occur in the preovulatory follicle. Estradiol-17 beta production is high before and declines after the LH surge. The objective of this study was to determine whether steroid hormones, particularly estradiol-17 beta, influence OT secretion by bovine granulosa cells. Heifers (n = 5) were injected with prostaglandin F2 alpha (PGF2 alpha) on Day 7 of the estrous cycle to induce luteolysis. Preovulatory follicles were obtained during the ensuing follicular phase, 24 h after PGF2 alpha injection (about 24-36 h before the expected time of the preovulatory LH/FSH surge). Granulosa cells were isolated and cultured for 5 days in defined medium containing graded doses (0, 0.001, 0.01, 0.1, 1, 10 micrograms/ml) of estradiol-17 beta, testosterone, or progesterone. Media were collected daily and assayed for OT by radioimmunoassay. Addition of 0.001 or 0.01 micrograms estradiol-17 beta/ml stimulated OT secretion by granulosa cells by about 75% during the last 2 days of culture (p < 0.01). In contrast, estradiol-17 beta at high doses (1 and 10 micrograms/ml) inhibited OT secretion by 45-85% (p < 0.01). Therefore, estradiol-17 beta had a biphasic effect on OT secretion by granulosa cells.(ABSTRACT TRUNCATED AT 250 WORDS)

A new gene trap construct enriching for insertion events near the 5' end of genes.

The gene trap approach is based on the integration of a gene trap vector into the genome. This can be done either by electroporation of a plasmid construct or by infection with a viral vector. Commonly used viral gene trap vectors have been shown to select for integrations near the 5' end of genes. To date, no plasmid vector with a similar tendency has been reported. In this paper we describe a new plasmid vector, pKC199beta geo. This vector contained a short splice acceptor fragment from the Hoxc9 gene, a full length lacZ gene, including an ATG, and a reduced activity, mutant neomycin phosphotransferase gene as a selectable marker. This vector enriched the population of trapped genes in our gene trap screen for insertion events in the 5' end of genes. In the two cases examined the beta-galactosidase activity pattern accurately reflected the endogenous promotor activity.

The murine gene, Traube, is essential for the growth of preimplantation embryos.

Little is known about the genetic control of preimplantation development. We have isolated, characterized, and mutated a previously undescribed mouse gene, Traube (Trb), essential for preimplantation development. Similar protein coding sequences are found in rats, humans, and yeast. The TRB protein contained two amino-terminal acidic domains, a leucine zipper, and three putative nuclear localization signals. The Trb gene was expressed at low levels ubiquitously early in development and became restricted to the liver and the central nervous system from E11.5 onward. Myc-tagged TRB protein was localized to the nucleus, and in a large proportion of the cells to the nucleoli. The Trb mutant embryos halted in development at the compacted morula stage at E2.5. At E3.5 they started to decompact and a day later they disintegrated and died. The observed defect was cell autonomous, as mutant cells failed to participate in the formation of chimeric embryos. The Trb mutant embryos showed a 50% reduction of the total cell number. The mutant embryos exhibited a paucity of ribosomes, polyribosomes, and rough endoplasmic reticulum. This paucity of ribosomes together with the localization of TRB to the nucleoli, the site of ribosome synthesis, suggests that TRB is involved in the synthesis of ribosomes.

Germ line chimeras from female ES cells.

Murine embryonic stem cells (ES cells) are pluripotent cells that can contribute to all tissues of developing mice including the germ line when aggregated with 8-cell-stage embryos or injected into the blastocoel cavity of murine blastocysts. As well as for in vitro studies, they are used to introduce mutations into the murine genome, thereby producing new mutant mouse lines. All ES cell lines so far described that contribute to the germ line have been male. However, for many studies female ES cell lines may be essential. Female ES cells may be particularly useful for mutating genes located on the X chromosome which would otherwise be hemizygously lethal in males. We show here that female ES cells are able to form germ line chimeras and to sex convert a male host embryo.