Controlling cell cycle progress in the fission yeast Schizosaccharomyces pombe.

The suitability of fission yeast as a model for understanding the eukaryotic cell cycle has been validated in five years of exciting developments. We review recent advances in understanding the nature of the controls that regulate progression through the cell cycle and the coordination of DNA replication and mitosis.

A functional analysis of PCNA-binding peptides derived from protein sequence, interaction screening and rational design.

Proliferating cell nuclear antigen (PCNA) has no intrinsic enzymatic function, but functions as a sliding platform to mediate protein interactions with the DNA strand. Many proteins interact with PCNA through a small conserved motif with consensus QxxLxxFF. This work uses Schizosaccharomyces pombe and human cells to analyse the function of PCNA-binding peptides. Interacting peptides were identified using two-hybrid screening; one (pep102) binds directly to a physiologically relevant site on PCNA. The EGFP-pep102 overexpression phenotype is consistent with competitive blocking of PCNA-protein interactions. Various PCNA-binding peptides were all shown to inhibit PCNA function by competitive binding in both human and S. pombe cells as EGFP fusion proteins. The action of a p21(WAF1/Cip1)-derived peptide was complicated by the presence of additional functional domains and possible post-translational modification. The activity of pep102 was hampered by low expression in both model systems. The peptide derived from rational design (con1) was stable, highly active in inhibiting PCNA function both S. pombe and human cells and showed a high affinity for PCNA both in vitro and in vivo. These results validate the use of functional screening in yeast to identify peptide aptamers that are functional in mammalian cells; such aptamers provide excellent leads for small molecule antiproliferative therapies.

A new twist to the tale? Apoptosis.

The DNA helicases XPB and XPD, components of transcription factor TFIIH, have been implicated in a p53-induced apoptotic pathway. These new findings suggest a role for the core TFIIH complex in the coordination, not only of transcription, the cell cycle and DNA repair, but also of apoptosis.

A small peptide inhibitor of DNA replication defines the site of interaction between the cyclin-dependent kinase inhibitor p21WAF1 and proliferating cell nuclear antigen.

BACKGROUND: p21WAF1 is a potent inhibitor of the cell-cycle regulatory cyclin-dependent kinases (Cdks). It acts on Cdks in the G1 and S phases of the cell cycle, and also binds to proliferating cell nuclear antigen (PCNA), blocking DNA replication in vitro. Transcription of p21WAF1 can be induced by the human tumour suppressor protein p53, suggesting that the action of p21WAF1 may be important in cancer prevention. We have investigated the interaction between p21WAF1 and PCNA using a genetic two-hybrid screen and with arrays of synthetic peptides derived from the p21WAF1 protein sequence. RESULTS: We have established that the carboxy-terminal region of p21WAF1 interacts with PCNA in a yeast two-hybrid screen. Interaction with p21WAF1 involves the central loop of PCNA, which connects the two domains of the PCNA monomer. The interaction was finely mapped using peptides derived from the entire sequence of the p21WAF1 protein, and the critical residues were found to be QTSMTDFY (amino acids 144-151 of p21WAF1). Remarkably, a 20-residue peptide containing this sequence inhibited replication of simian virus 40 (SV40) DNA in vitro and could capture PCNA from whole cell extracts, demonstrating that small molecules can retain the biological activity characteristic of the whole protein. Sequential alanine-scan mutations of the peptide demonstrated that its ability to block replication correlates with its affinity for binding PCNA. CONCLUSIONS: We have shown that PCNA and the cell-cycle regulator p21WAF1 interact in vivo, and that this interaction requires the central loop of PCNA and an eight amino-acid motif from the carboxyl terminus of p21WAF1.(ABSTRACT TRUNCATED AT 250 WORDS)

The fission yeast mitotic regulator win1+ encodes an MAP kinase kinase kinase that phosphorylates and activates Wis1 MAP kinase kinase in response to high osmolarity.

The Schizosaccharomyces pombe win1-1 mutant has a defect in the G2-M transition of the cell cycle. Although the defect is suppressed by wis1+ and wis4+, which are components of a stress-activated MAP kinase pathway that links stress response and cell cycle control, the molecular identity of Win1 has not been known. We show here that win1+ encodes a polypeptide of 1436 residues with an apparent molecular size of 180 kDa and demonstrate that Win1 is a MAP kinase kinase kinase that phosphorylates and activates Wis1. Despite extensive similarities between Win1 and Wis4, the two MAP kinase kinase kinases have distinct functions. Wis4 is able to compensate for loss of Win1 only under unstressed conditions to maintain basal Wis1 activity, but it fails to suppress the osmosignaling defect conferred by win1 mutations. The win1-1 mutation is a spontaneous duplication of 16 nucleotides, which leads to a frameshift and production of a truncated protein lacking the kinase domain. We discuss the cell cycle phenotype of the win1-1 cdc25-22 wee1-50 mutant and its suppression by wis genes.

Homologous regions of Fen1 and p21Cip1 compete for binding to the same site on PCNA: a potential mechanism to co-ordinate DNA replication and repair.

Following genomic damage, the cessation of DNA replication is co-ordinated with onset of DNA repair; this co-ordination is essential to avoid mutation and genomic instability. To investigate these phenomena, we have analysed proteins that interact with PCNA, which is required for both DNA replication and repair. One such protein is p21Cip1, which inhibits DNA replication through its interaction with PCNA, while allowing repair to continue. We have identified an interaction between PCNA and the structure specific nuclease, Fen1, which is involved in DNA replication. Deletion analysis suggests that p21Cip1 and Fen1 bind to the same region of PCNA. Within Fen1 and its homologues a small region (10 amino acids) is sufficient for PCNA binding, which contains an 8 amino acid conserved PCNA-binding motif. This motif shares critical residues with the PCNA-binding region of p21Cip1. A PCNA binding peptide from p21Cip1 competes with Fen1 peptides for binding to PCNA, disrupts the Fen1-PCNA complex in replicating cell extracts, and concomitantly inhibits DNA synthesis. Competition between homologous regions of Fen1 and p21Cip1 for binding to the same site on PCNA may provide a mechanism to co-ordinate the functions of PCNA in DNA replication and repair.

Characterisation of the interaction between PCNA and Gadd45.

We have examined the interaction between the DNA replication and repair protein PCNA, and the growth arrest and DNA damage induced protein Gadd45. An anti-Gadd45 polyclonal antibody co-immunoprecipitates PCNA but in reciprocal experiments, an anti-C terminal anti-PCNA antibody failed to co-immunoprecipitate Gadd45. We used a yeast two hybrid assay to demonstrate that human Gadd45 interacts with both human and S. pombe PCNA. We have determined that the N-terminal 94 amino acids of Gadd45 bind to PCNA, and using a series of N-terminal and C-terminal deletions of human PCNA we have mapped two potential Gadd45 binding sites. Deletion of the last 6 amino acids of PCNA ablated interaction, suggesting a role in Gadd45 binding. This explains the inability of an anti-C terminal PCNA antibody to co-immunoprecipitate Gadd45. Using a peptide ELISA approach, we showed that Gadd45 protein binds strongly to three regions of PCNA (residues 1-20, 61-80, and 196-215) and weakly to residues 121-170. The crystal structure of PCNA provides insight into our genetic and immunochemical data. Our results confirm an interaction between PCNA and Gadd45, define regions of both molecules involved in this interaction, and are consistent with a potential stoichiometry of 2 Gadd45 molecules to each PCNA monomer. These data provide support for the notion that PCNA-Gadd45 interactions co-ordinate cell cycle and DNA repair.

Gadd45 is a nuclear cell cycle regulated protein which interacts with p21Cip1.

GADD45 was originally identified as a cDNA clone induced by growth arrest and DNA damage. We show that Gadd45 is a nuclear protein, widely expressed in normal tissues, particularly in quiescent cellular populations. Using cell synchronisation methods we show that Gadd45 levels are highest in the G1 phase of the cell cycle, and are greatly reduced during S phase. Immunoprecipitation of Gadd45 from mammalian cells reveals that it is tightly associated with a protein which reacts with antibodies to the cyclin dependent kinase inhibitor p21Cip1. Binding of recombinant Gadd45 protein to overlapping p21Cip1 peptides in ELISA assays and use of the yeast two hybrid assay show that Gadd45 directly interacts with this cell cycle inhibitor. These data suggest that Gadd45 may act in the regulation of the cell cycle. It is postulated that the interactions of Gadd45 with both p21Cip1 and PCNA are important for the modulation of cell cycles, and for the inhibition of DNA replication.

A Drosophila melanogaster homolog of the TIS11 family of immediate early genes that can rescue a cdr1 cdc25 mutant strain of fission yeast.

A Drosophila melanogaster (Dm) embryonic cDNA library was screened for genes capable of inhibiting wee1+/mik1+ protein kinase (Pk) function. We expected to identify homologs of the Schizosaccharomyces pombe gene nim1+. This gene encodes a Pk capable of phosphorylating and so inhibiting the wee1+ Pk that in turn inhibits p34cdc2. Dm cDNAs capable of complementing the temperature-sensitive phenotype of a nim1/cdr1 cdc25 double mutant strain were identified and found to fall into two classes. One class encodes the Dm Cdc2 protein. The second cDNA class encodes a novel protein containing a central motif consisting of two tandem repeats of a putative Zn(2+)-finger motif. This region is highly conserved in the TIS11 family of immediate early genes, which in mammalian cells are rapidly and transiently induced in response to 12-O-tetradecanoyl phorbol-13-acetate (TPA) and to mitogens such as epidermal growth factor and fibroblast growth factor.

Prediction of drug allergenicity: possible use of the local lymph node assay.

The mouse local lymph node assay (LLNA) is currently used for the prospective identification of chemicals that have the potential to cause skin sensitization and allergic contact dermatitis. In this respect, the assay has been fully and formally evaluated and validated, and has been accepted recently as a stand-alone method for the identification of potential skin sensitizers. The assay involves topical application of test substance and the subsequent measurement of proliferative responses in the lymph nodes draining the site of exposure. The testing of new drug entities using a similar assay technique could offer a potential alternative for the identification of potential drug allergens. Currently, the popliteal lymph node assay (PLNA), or modifications of it, are used in research studies for the identification of drugs which have the potential to cause allergic or autoimmunogenic reactions. The PLNA involves subcutaneous application of test substance into the hind footpad, followed by the measurement of proliferative responses, or other parameters of immune activation, in the popliteal lymph nodes. However, these assays have not been validated systematically and the potential utility of a modified LLNA for use in the identification of such compounds is discussed.

The expression of small heat shock proteins in the microfilaria of Brugia pahangi and their possible role in development.

Development of the microfilariae of Brugia pahangi in the mammalian host is blocked until uptake by a mosquito vector when the developmental cycle is re-initiated. Comparison of the profile of polypeptides labelled in microfilariae cultured at mammalian temperature (37 degrees C) or mosquito temperature (28 degrees C) revealed a complex of low-molecular-weight proteins (18 kDa and 22-24 kDa) synthesized only in microfilariae at 37 degrees C. The synthesis of these proteins was also induced by transfer of microfilariae to 41 degrees C (i.e., heat shock conditions), suggesting that these are heat shock proteins. The expression of the small heat shock proteins in the Brugia life cycle is developmentally regulated, as they are not observed in the mature adult female. Their synthesis is strictly temperature dependent and is repressed upon transfer of the microfilariae to 28 degrees C.

IgG and IgE antibody responses following exposure of Brown Norway rats to trimellitic anhydride: comparison of inhalation and topical exposure.

A variety of chemicals can cause sensitisation of the respiratory tract and occupational asthma, including certain acid anhydrides, diisocyanates and reactive dyes. As yet, no well-validated methods are available for the toxicological evaluation of the respiratory sensitising potential of chemicals. One approach which has been explored recently is the evaluation of induced IgE responses or cytokine expression patterns in rats or mice following topical exposure to chemical. Thus, it has been demonstrated that topical exposure of rodents to respiratory sensitising chemicals, but not to contact allergens, causes a dose-dependent and time-related increase in the concentration of total IgE. Using the reference respiratory allergen trimellitic anhydride (TMA), we have considered here the influence of route of exposure on the nature of induced immune responses. Specific IgG and IgE antibody responses and changes in total serum concentration of IgE have been measured following exposure of Brown Norway (BN) starin rats to TMA by topical administration or by inhalation. Exposure to TMA by both routes resulted in the stimulation of specific IgG and IgE antibody, although responses were considerably more vigorous after dermal exposure. Topical treatment also provoked marked and sustained increases in total serum IgE levels, whereas exposure via the respiratory tract stimulated a more transient elevation of this immunoglobulin in a minority of animals which reached statistical significance only at the highest dose group. The lesser vigour of the immune response following inhalation exposure is likely to be related to the considerably lower total antigenic dose which is delivered by this route. Nevertheless, these results show that the nature of immune response with respect to antibody isotype profile provoked by topical administration of TMA is qualitatively comparable with that stimulated by inhalation exposure to the same chemical. For the purposes of hazard assessment and identification of potential chemical respiratory allergens as a function of induced changes in serum IgE concentration, however, the evidence is that topical administration of test material is the preferred route of exposure.

The effects of mercuric chloride on growth, cytokine and MHC class II gene expression in a human leukemic mast cell line.

We have examined the effects of mercuric chloride (HgCl2) on growth and IL-4, IL-8, TNF-alpha and MHC class II gene expression in the HMC-1 human leukemic mast cell line. Proliferation, measured by [3H]thymidine incorporation or production of a formazan product (MTT assay), was substantially inhibited by HgCl2 at concentrations of 10(-6) M and above. Inspection of the DNA by agarose gel electrophoresis from HgCl2-treated cells revealed that it was intact, indicating inhibition of DNA synthesis, but not denaturation. HgCl2 inhibited expression of mRNA for IL-8, TNF-alpha and MHC class II at 4 x 10(-6) M and inhibited expression of IL-4 mRNA at 8 x 10(-6) M and above. At a concentration of 10(-5)M, HgCl2 almost completely blocked mRNA expression for IL-4, IL-8, TNF-alpha and MHC class II, but produced negligible inhibition of expression of mRNA encoding the housekeeping gene beta-actin, thus demonstrating selective toxicity for the cytokine and MHC class II genes studied. Pre-exposure of the cells to human recombinant IL-4 prior to treatment with HgCl2 had no effect on expression levels of any of the genes examined. The effects seen in this study are consistent with previous reports showing immunotoxic effects of HgCl2 on other cell types, therefore, the HMC-1 mast cell line may prove useful in further studies of mast cell cytokine gene expression and the mechanisms involved in cytokine gene toxicity.

The effects of cyclosporin A, dexamethasone and other immunomodulatory drugs on induced expression of IL-3, IL-4 and IL-8 mRNA in a human mast cell line.

We examined by RT-PCR the effect of a number of immunomodulatory compounds on cytokine gene expression at the level of mRNA in the HMC-1 human leukemic mast cell line. Resting cells expressed relatively low constitutive levels of mRNA for the cytokine genes IL-3, IL-4 and IL-8, and mRNA levels for each of these cytokines were significantly enhanced after 4-h stimulation with the calcium ionophore ionomycin. Treatment of the cells with the immunosuppressant CsA at 10(-5) M produced a significant inhibition of ionomycin-induced expression of IL-3, IL-4 and IL-8 mRNA, and at 10(-6) M produced a significant inhibition of induced expression of IL-3 and IL-8 but not IL-4. At both concentrations of CsA, expression of IL-3 was inhibited to a greater extent than that of the other two cytokines. Treatment of the cells with the corticosteroid DEX at 10(-5) M but not 10(-6) M significantly reduced the ionomycin-induced expression of IL-3 but not IL-4 or IL-8 mRNA. Progesterone and methotrexate were both inactive in modulation of induced cytokine expression in this cell line. In conclusion, this study shows that cytokine expression, particularly of IL-3, is inhibited in a human mast cell line by CsA and DEX. These findings may be relevant to the anti-allergic action of these drugs.

Analysis of interleukin 12 protein production and mRNA expression in mice exposed topically to chemical allergens.

Interleukin (IL) 12 is a heterodimeric cytokine which stimulates IFN-gamma production and promotes the development of type 1 T helper cells and T cytotoxic cells from their respective precursors. We have described previously that contact allergens such as 2,4-dinitrochlorobenzene (DNCB), and respiratory allergens such as trimellitic anhydride (TMA) induce discrete type 1 and type 2 cytokine secretion patterns, respectively, following repeated topical exposure of BALB/c strain mice. Under such conditions, we have now examined production by draining LNC of the inducible subunit of IL-12 (p40) and p40 and p35 subunit mRNA expression. Cultured LNC prepared from mice treated with DNCB secreted significantly more IL-12 p40 protein than did TMA- or vehicle-activated LNC, such differences becoming more pronounced as the duration of culture increased. Maximal levels of mRNA expression of the IL-12 p40 subunit were observed after 6-24 h of culture in all treatment groups and declined thereafter. Somewhat higher levels were induced following exposure to DNCB, these differences only reached statistical significance at 24 h of culture. Expression of this subunit by LNC from all treatment groups declined with time in culture. Levels of IL-12 p35 mRNA expression were comparable in cultured LNC prepared from allergen and vehicle treated mice and remained constant throughout the entire culture period. These data indicate that the divergent T cell cytokine responses seen in response to contact and respiratory allergens are associated with differential production of IL-12 p40 protein in the absence of substantial changes in the expression of mRNA for either subunit.

Preliminary assessment of the skin sensitizing activity of selected rodent carcinogens using the local lymph node assay.

It has been demonstrated previously that there exists an incomplete correlation between the skin sensitizing potential of chemicals and their mutagenic properties as judged by activity in the Salmonella mutation assay. More recently, it has been proposed that there may exist a broader association between carcinogenicity in rodents (including non-genotoxic carcinogenesis) and skin sensitizing activity. To explore further these putative relationships we have here examined the skin sensitizing potential of two non-genotoxic rodent carcinogens which are generally considered not to represent a carcinogenic hazard in humans (limonene and saccharin) and of three genotoxic rodent carcinogens (vinylidene dichloride, ethyl acrylate and bisphenol A diglycidyl ether). For this purpose we have used the local lymph node assay (LLNA), a method for the identification and characterization of skin sensitizing chemicals that has recently been recognized as a stand-alone method for hazard identification purposes. Activity in the LLNA was compared with the results of Salmonella tests conducted previously. This small series of investigations reveals that there exists no general relationship between skin sensitizing potential and rodent carcinogenicity. Furthermore, although a general correlation does exist between mutagenic activity and skin sensitization, this association is not universal and activity in the Salmonella mutation assay does not necessarily imply skin sensitizing potential. Collectively these data suggest that it is inappropriate currently to recommend the use of skin sensitization tests as an adjunct to conventional approaches to the evaluation of potential carcinogenicity.

Cytokine fingerprinting of chemical allergens: species comparisons and statistical analyses.

The cellular and molecular mechanisms that result in the induction of chemical respiratory sensitization are unclear, although there is evidence for the development of T helper (Th) 2 type responses and, in some cases, the production of IgE. We have compared cytokine secretion patterns stimulated by topical exposure of BALB/c strain mice or Brown Norway (BN) strain rats to the reference respiratory allergen trimellitic anhydride (TMA), or to the reference contact allergen 2,4-dinitrochlorobenzene (DNCB). Under conditions where TMA and DNCB provoke similar levels of immune activation [increases in lymph node cell (LNC) cellularity and proliferation] divergent cytokine expression patterns are elicited. TMA-activated LNC isolated from BALB/c mice or BN rats elaborated high levels of the Th2-type cytokines interleukin (IL)-10 and IL-13, but relatively little of the Th1-type cytokines IL-12 or interferon gamma. For LNC derived from both species there was a requirement for restimulation in vitro with the mitogen concanavalin A for IL-4 production. Generally, DNCB-stimulated LNC displayed the converse type 1 cytokine phenotype. The cytokine secretion profiles of LNC isolated from BN rats were considerably more variable than those observed for LNC from BALB/c mice. Statistically significant differences (P<0.01) between DNCB- and TMA-activated LNC were recorded for all cytokines in BALB/c strain mice. For the BN rat, differences reached statistical significance (P<0.01) only for the expression of IL-4 and IL-13. These data demonstrate that the intrinsic ability of DNCB and TMA to promote preferential Th1- and Th2-type responses, respectively, is species-independent and provide further evidence that chemical respiratory allergens are associated with polarized Th2-type responses. For the prospective assessment of chemical respiratory allergens as a function of induced cytokine secretion profiles, however, these data suggest that the use of the BALB/c strain mouse will provide the more robust method.

Inhalation exposure to methylene chloride does not induce systemic immunotoxicity in rats.

Methylene chloride (dichloromethane) is used in a variety of industrial applications. To date, there has been no formal assessment of immunotoxicity attributed to methylene chloride. Studies were undertaken to examine whether methylene chloride has any potential to influence the integrity of immune function. For this purpose, Sprague-Dawley rats of both genders were exposed by inhalation to a single high dose (5000 ppm) of methylene chloride for 6 h/d, 5 d/wk for 28 d. This was considered the relevant route of administration, as not only is inhalation a primary route for human exposure to methylene chloride, but, also, the chemical is absorbed rapidly via the lungs. Under these conditions of exposure, methylene chloride failed to influence absolute or relative thymus weights in either gender and produced a significant reduction in relative, but not absolute, spleen weight in female rats only. Immunocompetence was measured as a function of the ability of treated animals to mount immunoglobulin M (IgM) antibody responses to sheep red blood cells (SRBC) as determined by enzyme-linked immunosorbent assay (ELISA). Exposure to methylene chloride did not affect antibody production. Evidence indicates that under these conditions of exposure, methylene chloride did not compromise immune function.

The regulatory acceptance of alternatives in the European Union.

Recently, progress has been made toward the regulatory acceptance of replacements in the European Union (EU), particularly with the introduction of in vitro methods for the prediction of skin corrosivity, dermal penetration, phototoxicity and embryotoxicity. In vitro genotoxicity tests are well established, and testing for this endpoint can be completed without animals, provided that clear negative outcomes are obtained. Tiered approaches including in vitro tests can also be used to address skin and eye irritation endpoints. Reductions and/or refinements in animal use are being achieved following the replacement of the oral LD50 test with alternative methods and the adoption of reduced test packages for materials, such as closed-system intermediates and certain polymers. Furthermore, the use of a "read-across" approach has reduced animal testing. Substantial gains in refinement will also be made with the recent acceptance of the local lymph node assay for skin sensitisation and the development of an acute inhalation toxicity method that avoids lethality as the endpoint. For the future, under the proposed EU Registration, Evaluation and Authorisation of Chemicals (REACH) scheme, it is envisaged that, where suitable in vitro methods exist, these should be used to support registration of substances produced at up to ten tonnes per annum. This proposal can only accelerate the further development, validation and regulatory acceptance of such alternative methods.

Vehicle effects on skin sensitizing potency of four chemicals: assessment using the local lymph node assay.

The murine local lymph node assay (LLNA) can be used to determine the relative skin sensitizing potency of chemicals via interpolation of the quantitative dose response data generated. Using this approach we have demonstrated previously that the vehicle matrix in which a chemical allergen is encountered on the skin can have a significant influence on sensitizing potency. Estimates of relative potency are calculated from LLNA dose responses as a function of the mathematically derived EC3 value, this being the concentration estimated to induce a stimulation index (SI) of 3. To investigate further the influence of application vehicle on sensitizing potency, the LLNA has been used to examine the activity of four recognized human contact allergens: isoeugenol and cinnamic aldehyde, two fragrance chemicals; 3-dimethylaminopropylamine (a sensitizing impurity of cocamidopropyl betaine, a surfactant used in shower gel) and dibromodicyanobutane (the sensitizing component of Euxyl K 400, a preservative used in cosmetics). The four chemicals were applied in each of seven different vehicles (acetone: olive oil [4 : 1]; dimethylsulphoxide; methylethylketone; dimethyl formamide; propylene glycol; and both 50 : 50 and 90 : 10 mixtures of ethanol and water). It was found that the vehicle in which a chemical is presented to the epidermis can have a marked effect on sensitizing activity. EC3 values ranged from 0.9 to 4.9% for isoeugenol, from 0.5 to 1.7% for cinnamic aldehyde, from 1.7 to > 10% for dimethylaminopropylamine and from 0.4 to 6.4% for dibromodicyanobutane. These data confirm that the vehicle in which a chemical is encountered on the skin has an important influence on the relative skin sensitizing potency of chemicals and may have a significant impact on the acquisition of allergic contact dermatitis. The data also demonstrate the utility of the LLNA as a method for the prediction of these effects and thus for the development of more accurate risk assessments.