The elimination of the yeast [PSI+] prion by guanidine hydrochloride is the result of Hsp104 inactivation.

In the yeast Saccharomyces cerevisiae, Sup35p (eRF3), a subunit of the translation termination complex, can take up a prion-like, self-propagating conformation giving rise to the non-Mendelian [PSI+] determinant. The replication of [PSI+] prion seeds can be readily blocked by growth in the presence of low concentrations of guanidine hydrochloride (GdnHCl), leading to the generation of prion-free [psi-] cells. Here, we provide evidence that GdnHCl blocks seed replication in vivo by inactivation of the molecular chaperone Hsp104. Although growth in the presence of GdnHCl causes a modest increase in HSP104 expression (20-90%), this is not sufficient to explain prion curing. Rather, we show that GdnHCl inhibits two different Hsp104-dependent cellular processes, namely the acquisition of thermotolerance and the refolding of thermally denatured luciferase. The inhibitory effects of GdnHCl protein refolding are partially suppressed by elevating the endogenous cellular levels of Hsp104 using a constitutive promoter. The kinetics of GdnHCl-induced [PSI+] curing could be mimicked by co-expression of an ATPase-negative dominant HSP104 mutant in an otherwise wild-type [PSI+] strain. We suggest that GdnHCl inactivates the ATPase activity of Hsp104, leading to a block in the replication of [PSI+] seeds.

Guanidine hydrochloride blocks a critical step in the propagation of the prion-like determinant [PSI(+)] of Saccharomyces cerevisiae.

The cytoplasmic heritable determinant [PSI(+)] of the yeast Saccharomyces cerevisiae reflects the prion-like properties of the chromosome-encoded protein Sup35p. This protein is known to be an essential eukaryote polypeptide release factor, namely eRF3. In a [PSI(+)] background, the prion conformer of Sup35p forms large oligomers, which results in the intracellular depletion of functional release factor and hence inefficient translation termination. We have investigated the process by which the [PSI(+)] determinant can be efficiently eliminated from strains, by growth in the presence of the protein denaturant guanidine hydrochloride (GuHCl). Strains are "cured" of [PSI(+)] by millimolar concentrations of GuHCl, well below that normally required for protein denaturation. Here we provide evidence indicating that the elimination of the [PSI(+)] determinant is not derived from the direct dissolution of self-replicating [PSI(+)] seeds by GuHCl. Although GuHCl does elicit a moderate stress response, the elimination of [PSI(+)] is not enhanced by stress, and furthermore, exhibits an absolute requirement for continued cell division. We propose that GuHCl inhibits a critical event in the propagation of the prion conformer and demonstrate that the kinetics of curing by GuHCl fit a random segregation model whereby the heritable [PSI(+)] element is diluted from a culture, after the total inhibition of prion replication by GuHCl.

Motivating signage prompts safety belt use among drivers exiting senior communities.

Senior drivers are vulnerable to automobile crashes and subsequent injury and death. Safety belts reduce health risks associated with auto crashes. Therefore, it is important to encourage senior drivers to wear safety belts while driving. Using an AB design, replicated five times, we evaluated the short- and long-term effects of a sign with the message "BUCKLE UP, STAY SAFE" attached to a stop sign at the exits of five different senior communities. Safety belt use was stable during two pretreatment assessments averaged across the five sites and 250 drivers (72% and 68% usage), but significantly increased following installation of these signs (94% usage). Six months after installation of the signs, the effect persisted (88% usage). Use of such signs may be a cost-effective way of promoting safety belt use.

Translation termination efficiency can be regulated in Saccharomyces cerevisiae by environmental stress through a prion-mediated mechanism.

[PSI+] is a protein-based heritable phenotype of the yeast Saccharomyces cerevisiae which reflects the prion-like behaviour of the endogenous Sup35p protein release factor. [PSI+] strains exhibit a marked decrease in translation termination efficiency, which permits decoding of translation termination signals and, presumably, the production of abnormally extended polypeptides. We have examined whether the [PSI+]-induced expression of such an altered proteome might confer some selective growth advantage over [psi-] strains. Although otherwise isogenic [PSI+] and [psi-] strains show no difference in growth rates under normal laboratory conditions, we demonstrate that [PSI+] strains do exhibit enhanced tolerance to heat and chemical stress, compared with [psi-] strains. Moreover, we also show that the prion-like determinant [PSI+] is able to regulate translation termination efficiency in response to environmental stress, since growth in the presence of ethanol results in a transient increase in the efficiency of translation termination and a loss of the [PSI+] phenotype. We present a model to describe the prion-mediated regulation of translation termination efficiency and discuss its implications in relation to the potential physiological role of prions in S.cerevisiae and other fungi.

Mechanism of inhibition of Psi+ prion determinant propagation by a mutation of the N-terminus of the yeast Sup35 protein.

The SUP35 gene of Saccharomyces cerevisiae encodes the polypeptide chain release factor eRF3. This protein (also called Sup35p) is thought to be able to undergo a heritable conformational switch, similarly to mammalian prions, giving rise to the cytoplasmically inherited Psi+ determinant. A dominant mutation (PNM2 allele) in the SUP35 gene causing a Gly58-->Asp change in the Sup35p N-terminal domain eliminates Psi+. Here we observed that the mutant Sup35p can be converted to the prion-like form in vitro, but such conversion proceeds slower than that of wild-type Sup35p. The overexpression of mutant Sup35p induced the de novo appearance of Psi+ cells containing the prion-like form of mutant Sup35p, which was able to transmit its properties to wild-type Sup35p both in vitro and in vivo. Our data indicate that this Psi+-eliminating mutation does not alter the initial binding of Sup35p molecules to the Sup35p Psi+-specific aggregates, but rather inhibits its subsequent prion-like rearrangement and/or binding of the next Sup35p molecule to the growing prion-like Sup35p aggregate.

The products of the SUP45 (eRF1) and SUP35 genes interact to mediate translation termination in Saccharomyces cerevisiae.

The product of the yeast SUP45 gene (Sup45p) is highly homologous to the Xenopus eukaryote release factor 1 (eRF1), which has release factor activity in vitro. We show, using the two-hybrid system, that in Saccharomyces cerevisiae Sup45p and the product of the SUP35 gene (Sup35p) interact in vivo. The ability of Sup45p C-terminally tagged with (His)6 to specifically precipitate Sup35p from a cell lysate was used to confirm this interaction in vitro. Although overexpression of either the SUP45 or SUP35 genes alone did not reduce the efficiency of codon-specific tRNA nonsense suppression, the simultaneous overexpression of both the SUP35 and SUP45 genes in nonsense suppressor tRNA-containing strains produced an antisuppressor phenotype. These data are consistent with Sup35p and Sup45p forming a complex with release factor properties. Furthermore, overexpression of either Xenopus or human eRF1 (SUP45) genes also resulted in anti-suppression only if that strain was also overexpressing the yeast SUP35 gene. Antisuppression is a characteristic phenotype associated with overexpression of both prokaryote and mitochondrial release factors. We propose that Sup45p and Sup35p interact to form a release factor complex in yeast and that Sup35p, which has GTP binding sequence motifs in its C-terminal domain, provides the GTP hydrolytic activity which is a demonstrated requirement of the eukaryote translation termination reaction.

The dominant PNM2- mutation which eliminates the psi factor of Saccharomyces cerevisiae is the result of a missense mutation in the SUP35 gene.

The PNM2- mutation of Saccharomyces cerevisiae eliminates the extrachromosomal element psi. PNM2 is closely linked to the omnipotent suppressor gene SUP35 (also previously identified as SUP2, SUF12, SAL3 and GST1). We cloned PNM2- and showed that PNM2 and SUP35 are the same gene. We sequenced the PNM2- mutant allele and found a single G-->A transition within the N-terminal domain of the protein. We tested the effects of various constructs of SUP35 and PNM2- on psi inheritance and on allosuppressor and antisuppressor functions of the gene. We found that the C-terminal domain of SUP35 protein (SUP35p) could be independently expressed; expression produced dominant antisuppression. Disruption of the N-terminal domain of PNM2- destroyed the ability to eliminate psi. These results imply that the domains of SUP35p act in an antagonistic manner: the N-terminal domain decreases chain-termination fidelity, while the C-terminal domain imposes fidelity. Two transcripts were observed for SUP35, a major band at 2.4 kb and a minor band at 1.3 kb; the minor band corresponds to 3' sequences only. We propose a model for the function of SUP35, in which comparative levels of N- and C-terminal domains of SUP35p at the ribosome modulate translation fidelity.

Expression and inheritance of the yeast extrachromosomal element psi do not depend on RNA polymerase I.

The extrachromosomal element psi affects translation fidelity in the yeast Saccharomyces cerevisiae by increasing the efficiency of tRNA-mediated ochre suppression. The nature of the psi factor is unknown, although there is evidence that 3-microns circles from psi+ strains can be used to transform psi- cells to psi+. The 3-microns circles are extrachromosomal copies of the repeating ribosomal DNA unit, which is organized into two transcription units: the 35s rRNA precursor transcribed by RNA polymerase I, and the 5s rRNA transcribed by RNA polymerase III. We used a strain containing a mutation in RNA polymerase I to test whether psi expression and inheritance depended on RNA polI. Neither expression nor inheritance of psi requires intact RNA polI.

Effects of the gonadotrophin-releasing hormone agonist 'Zoladex' upon pituitary and gonadal function in hypogonadal (hpg) male mice: a comparison with normal male and testicular feminized (tfm) mice.

Hypogonadal (hpg) mutant mice, with a congenital deficiency of hypothalamic gonadotrophin-releasing hormone (GnRH), and testicular feminized (tfm) mice, which lack a functional androgen receptor, were used to study the effects of the potent GnRH agonist 'Zoladex' (ICI 118630; D-Ser (Bu(t))6, Azgly10-GnRH) on pituitary and gonadal function. Zoladex (0.5 mg) in a sustained-release lactide-glycolide copolymer depot was administered subcutaneously under anaesthesia and was left in place for 7 days, after which time the effects of the drug upon pituitary and serum gonadotrophin concentrations, glycoprotein hormone subunit mRNAs and testicular morphology were investigated. At the pituitary level, Zoladex treatment resulted in a substantial reduction in LH content in normal males, and LH content was depressed in hpg mice even below the basal levels normally found in these mutants. Pituitary LH content in the Zoladex-treated animals was depressed in the tfm groups, but not to the same levels as those found in the normal and castrated normal mice. Zoladex treatment at the time of castration prevented the post-operative elevation in serum LH associated with castration alone. In the androgen-deficient tfm mouse, Zoladex did not depress the normally elevated serum LH levels. Serum LH in the hpg animals was, in all cases, below the limit of detection of the assay. Pituitary FSH content was depressed into the hpg range in both the normal and castrated animals, but there was no further depression in the hpg mice. The pituitary content was reduced in the tfm mice, again the effects not being as dramatic as in the normal and castrated animals. Serum FSH content, as measured by radioimmunoassay, was depressed by 50% in normal mice; there was no reduction in the hpg mice, however. With regard to pituitary gonadotrophic hormone gene expression, Zoladex administration to normal mice caused a dramatic reduction in LH beta mRNA content, to a level approximating that found in untreated hpg mice. The drug also depressed LH beta mRNA in the castrated group to the hpg range when given at the time of castration, whereas in untreated castrated mice there was a significant increase in LH beta mRNA. In the tfm mouse, which can be considered as a model for long-term failure of androgen feedback, Zoladex again induced a fall in LH beta mRNA, but not to the same extent as in the normal and normal castrated group. Zoladex had no effect on the already low levels of LH beta mRNA found in hpg mice.(ABSTRACT TRUNCATED AT 400 WORDS)

Coordinate regulation of replication and virion sense gene expression in wheat dwarf virus.

We have investigated the relationship between viral DNA replication and virion sense gene expression in wheat dwarf virus (WDV), a member of the geminivirus group, by testing a series of deletion mutants in transfected Triticum monococcum (einkorn) protoplasts. Mutants contained a transcription fusion of the chloramphenicol acetyltransferase coding sequence to the virion sense promoter that replaced the viral coat protein coding sequence. The deletion analysis revealed that WDV replication and virion sense transcription can proceed independently and are controlled in part by nonoverlapping elements in the large intergenic region. These data and those from a C2 open reading frame (ORF) frameshift mutant also showed that the product of the C2 ORF (C1-C2 protein) is independently involved in both DNA replication and activation of the virion sense promoter. The amino acid sequences encoded by C2, which are highly conserved in the geminivirus group, show some homology to the DNA binding domain of the myb-related class of plant transcription factors. The possible involvement of the host in controlling the function of the C1-C2 protein and the implication of these data for the development of WDV-based gene vectors are discussed.

Effect of Ovariectomy or Oestrogen Implants upon Pituitary Function in Female Hypogonadal Mice Bearing Normal Fontal Preoptic Area Grafts.

Abstract The effects of ovariectomy and oestrogen feedback for 10 days upon pituitary and serum luteinizing hormone (LH) content, pituitary glycoprotein subunit messenger ribonucleic acid (mRNA) and prolactin mRNA content in normal females, female hypogonadal mice and hypothalamic grafted female hypogonadal mice, bearing a graft of normal mouse preoptic area tissue into the third ventricle, have been investigated. In normal females ovariectomy resulted in a rise in serum LH, LHbeta-subunit and common alpha-subunit mRNAs with no significant change in pituitary LH content or follicle-stimulating hormone (FSH) beta-subunit mRNA. In the hypogonadal females, preoptic area grafting resulted in an elevation in all of the above parameters into the normal range. Ovariectomy in this group resulted in a further elevation of serum LH, LHbeta-subunit and alpha-subunit mRNAs with no change in pituitary LH content or FSHbeta-subunit mRNA, which in all cases were comparable to ovariectomized normal animals. Oestrogen treatment caused a fall in pituitary LH content and the serum LH fell below the detection of the assay. LHbeta-subunit and a-subunit mRNA mirrored this fall but there was no change in FSHbeta-subunit hybridization. These experiments suggest that even though normal neuronal input to the gonadotrophin-releasing hormone neurons is disrupted, oestrogen-induced negative feedback can still occur in grafted female hypogonadal animals. Gonadotrophin-releasing hormone neurons are reported to lack oestrogen receptors but feedback within this graft by co-transplanting oestrogen-sensitive neurons remains a possibility, as does feedback at the level of the host median eminence where graft axons extend to the pituitary portal vessels. The similarity of the response in normal and grafted animals indicates that these actions of oestrogen may be effected predominantly at the pituitary level.

Effect of LH injections on testicular steroidogenesis, cholesterol side-chain cleavage P450 mRNA content and Leydig cell morphology in hypogonadal mice.

Hypogonadal (hpg) mice have a congenital deficiency of hypothalamic gonadotrophin-releasing hormone (GnRH) and the gonads consequently lack exposure to gonadotrophins during development. We injected male hpg mice with LH for 10 days to investigate whether LH alone can stimulate normal steroidogenesis in these animals. Control animals had an inactive interstitium and very few germ cells. Testicular content of androgens was undetectable by radioimmunoassay in control animals unless a single injection of LH was given 1 h before death, when androgens were just detectable. Control testes incubated in vitro with [3H]pregnenolone demonstrated that without gonadotrophin stimulation pregnenolone was metabolized only to progesterone in significant amounts. Assay for cholesterol side-chain cleavage cytochrome P450 (P450scc) mRNA showed basal expression in saline-treated hpg mouse testis. LH treatment induced hypertrophy and hyperplasia of Leydig cells and division of germ cells. Testicular androgen content increased significantly, with testosterone and androstenedione as the major androgens. LH-treated testes incubated with [3H]pregnenolone in vitro had a greater synthetic capacity for testosterone, suggesting an increase in 17 alpha-hydroxylase/C17-20-lyase activity. Basal and human chorionic gonadotrophin-stimulated androgen production in vitro increased markedly following LH treatment to levels previously described in the normal adult animal. LH treatment caused a rapid and transient increase in the hybridization of P450scc mRNA which was sevenfold greater than that of saline-treated controls when the animals were killed 1 h after the last injection but fell to control levels within 24 h of cessation of treatment.(ABSTRACT TRUNCATED AT 250 WORDS)

The Saccharomyces cerevisiae RAD2 gene complements a Schizosaccharomyces pombe repair mutation.

Two Saccharomyces cerevisiae genes necessary for excision repair of UV damage in DNA, RAD1 and RAD2, were introduced individually, on a yeast shuttle vector, into seven Schizosaccharomyces pombe mutants - rads 1, 2, 5, 13, 15, 16 and 17. The presence of the cloned RAD1 gene did not affect survival of any of the S. pombe mutants. The RAD2 gene increased survival of S. pombe rad13 to near the wild-type level after UV irradiation and had no effect on any of the other mutants tested. S. pombe rad13 mutants are somewhat defective in removal of pyrimidine dimers so complementation by the S. cerevisiae RAD2 gene suggests that the genes may code for equivalent proteins in the two yeasts.

Growth hormone-deficient dwarfism in the rat: a new mutation.

Mutations in animals have provided insight into many aspects of normal and pathological human physiology. This paper reports the discovery and initial characterization of a new mutant dwarf rat. The mutation, inherited as an autosomal recessive, arose spontaneously in a breeding colony of Lewis rats at the Medical Research Council Cellular Immunology Unit, Sir William Dunn School of Pathology, Oxford, U.K., in 1985 and the strain has now been established both in Oxford and at Mill Hill. Body growth in the mutant is retarded such that at 3 months of age both males and females weigh approximately 40% less than their normal litter-mates, and continue to grow at a slower rate. The mutants show a selective reduction in pituitary GH synthesis and storage (pituitary GH concentrations were approximately 10% of normal in males and 6% in females). The concentration of their anterior pituitary trophic hormones (LH, TSH, prolactin and ACTH) were within the normal range in dwarf animals. Exogenous GH treatment for 5 days resulted in an increase in growth rate from 1.5 +/- 0.3 to 3.9 +/- 0.4 g/day in male mutants, and 0.8 +/- 0.2 to 3.1 +/- 0.1 g/day in females. Longitudinal bone growth rates were more than doubled by this treatment from 49 +/- 5 to 100 +/- 10 micron/day in females and from 52 +/- 11 to 131 +/- 16 micron/day in males. Dot blot and Northern blot analysis of pituitary mRNA extracts revealed that the GH message in mutants was between 20 and 25% of normal, and that the GH transcript was of normal size.(ABSTRACT TRUNCATED AT 250 WORDS)

A ribosome-associated inhibitor of in vitro nonsense suppression in [psi-] strains of yeast.

All classes of tRNA-mediated nonsense suppression are much more efficient in yeast cell-free lysates prepared from a [psi+] strain than in those prepared from an isogenic [psi-] strain. Mixed [psi+]/[psi-] lysates do not support efficient suppression. Fractionation of the [psi-] lysate demonstrated the presence of an inhibitor of in vitro suppression that is loosely associated with the 80 S ribosome. The data indicate that the inhibitor is a factor involved in the termination of translation in this simple eukaryote.

Effect of cell cycle position on thermotolerance in Saccharomyces cerevisiae.

We showed that the heat killing curve for exponentially growing Saccharomyces cerevisiae was biphasic. This suggests two populations of cells with different thermal killing characteristics. When exponentially growing cells separated into cell cycle-specific fractions via centrifugal elutriation were heat shocked, the fractions enriched in small unbudded cells showed greater resistance to heat killing than did other cell cycle fractions. Cells arrested as unbudded cells fell into two groups on the basis of thermotolerance. Sulfur-starved cells and the temperature-sensitive mutants cdc25, cdc33, and cdc35 arrested as unbudded cells were in a thermotolerant state. Alpha-factor-treated cells arrested in a thermosensitive state, as did the temperature-sensitive mutant cdc36 when grown at the restrictive temperature. cdc7, which arrested at the G1-S boundary, arrested in a thermosensitive state. Our results suggest that there is a subpopulation of unbudded cells in exponentially growing cultures that is in G0 and not in G1 and that some but not all methods which cause arrest as unbudded cells lead to arrest in G0 as opposed to G1. It has been shown previously that yeast cells acquire thermotolerance to a subsequent challenge at an otherwise lethal temperature during a preincubation at 36 degrees C. We showed that this acquisition of thermotolerance was corrected temporally with a transient increase in the percentage of unbudded cells during the preincubation at 36 degrees C. The results suggest a relationship between the heat shock phenomenon and the cell cycle in S. cerevisiae and relate thermotolerance to transient as well as to more prolonged residence in the G0 state.