Loss of a cohesin-linked suppressor APRIN (Pds5b) disrupts stem cell programs in embryonal carcinoma: an emerging cohesin role in tumor suppression.

Cohesins appear to have critical functions beyond mitotic cohesion. Our data on a cohesin-associated Pds5-paralog, APRIN, indicate a novel cohesin role in stem cell differentiation. APRIN/Pds5B is lost in many cancers and it is a putative tumor suppressor. Its mutations in the germ line, however, generate birth defects. We reasoned that as both cancer and birth defects share disrupted stem cell differentiation, the data suggest an APRIN/Pds5B cohesin function in stem cells. We used an embryonal carcinoma stem cell model and show here that (i) APRIN expression is precisely coordinated with stem cell differentiation; (ii) this coordination involves surface-contact and endocrine pathways; and (iii) APRIN/Pds5b coordination is critical in stem/progenitor exit decisions. APRIN knockdown disrupted Oct4, Nanog and SOX2 patterns, differentiation failed and the resulting immature proliferative cells did not progress beyond proneural progenitor phase. Furthermore, the phenotype-blocked progenitor exit (Mash-1(+)); failed E-cadherin exit (E-Cadh(low+)); incomplete N-cadherin transition (N-Cadh(low+)); retained proliferative capacity (c-myc(+)); irregular stemness (SOX2(late++)) and lost response to contact and hormonal cues-shares similarities with cancer-initiating cells. The data suggest novel APRIN/Pds5B-linked cohesin roles in stem/progenitor programs and a new mechanism in tumor suppression.

Androgen-induced proliferative quiescence in prostate cancer cells: the role of AS3 as its mediator.

In the prostate gland of adult mammals, most epithelial cells are in a state of proliferative quiescence. Androgens regulate this effect by inducing cell cycle arrest in the G(0)/G(1) phase. Potential mediators of this androgen-induced proliferative shutoff were identified by means of subtracted cDNA libraries. The expression pattern of one of these sequences, AS3, strongly correlated with the expression of the androgen-induced proliferative shutoff both temporally and dosewise. The AS3 gene is located on chromosome 13 q12.3, in close proximity to the BRCA2 gene. The loss of chromosomal regions where AS3 alleles are located correlates with various human cancers, including prostate. The biological effect of AS3 was tested in two stable cell lines, one expressing sense and another expressing antisense AS3 constructs, both under tetracycline regulation. S9 cells were obtained by retroviral infection with virions containing a tetracycline-regulated sense AS3 construct. In these cells, sense AS3 was negatively regulated by tetracycline. Tetracycline withdrawal increased the expression of AS3 mRNA and protein. The expression of tetracycline-regulated AS3 resulted in inhibition of cell proliferation. A4 cells were obtained by retroviral infection with virions containing a tetracycline-regulated antisense AS3 construct. Vector-driven expression of antisense-AS3 blocked the induction of androgen-induced endogenous AS3 mRNA and blocked the inhibitory effect of androgens on cell proliferation. Tetracycline-regulated expression of the empty vector control had no effect on cell proliferation. These experiments strongly suggest that AS3 is a mediator of the androgen-induced proliferative shutoff.

Identification of human estrogen-inducible transcripts that potentially mediate the apoptotic response in breast cancer.

Hormone manipulation has been used for several decades with the purpose of inducing breast cancer regression. On the one hand, hormone ablation and antiestrogen administration were used on the rationale that estrogens induce proliferation of their target cells. Before the advent of the antiestrogen tamoxifen, on the other hand, the estrogen agonist DES was used to obtain clinical remissions. The rationale for the use of diethylstilbestrol (DES) was totally empirical. In fact, the efficacy of both treatments was comparable. A mechanistic explanation for estrogen-induced regression is urgently needed in order to provide a rationale for its use in therapeutic fields, and to develop markers to identify this phenotype in order to recognize responsive tumors. In this report, we use E8CASS cells (a MCF7 variant) as a model to study estrogen-mediated regression. The proliferation rate of E8CASS cells is decreased by estrogens. In order to isolate mRNA sequences induced by estradiol, a subtracted library was prepared from E8CASS cells grown in the presence and absence of estrogens. Twenty nine differentially expressed unique sequences were found. Seven of them were homologous to known genes, 12 of them were homologous to expressed sequence tags (EST), and 10 sequences had no homologues in the databases. The two sequences showing the highest induction by estradiol (E9 and E43) were chosen for further analysis. The sequence of the E43 coding region has 96% homology to the bovine actin2 gene and 100% identity to bovine actin2 protein, and it is homologous to the human actin-related protein 3 (Arp3). It has been suggested that Arp3 is involved in actin nucleation. The phenotype of E8CASS cells is clearly affected by estrogen treatment. It is likely that E43 may be involved in these morphological changes. The E9 cDNA is a putative zinc-finger protein of the PHD family of transcriptional transactivators. A member of this family, Requiem, is involved in apoptosis. The E9 mRNA is highly expressed in E8CASS cells treated with estrogens, a treatment which results in decreased proliferation rate and increased DNA degradation. This correlation suggests that E9 may be a mediator of estrogen-induced regression of breast cancer.

Early gene expression during androgen-induced inhibition of proliferation of prostate cancer cells: a new suppressor candidate on chromosome 13, in the BRCA2-Rb1 locus.

In the prostate gland cell numbers are regulated by androgens through three separate pathways: (a) inhibition of cell death (apoptosis), (b) induction of cell proliferation (step 1), and (c) inhibition of cell proliferation (step 2, proliferative shutoff). The precise regulation of these control pathways is still elusive. The human prostate carcinoma LNCaP cell line variants express a subset of proliferative pathways comparable to those present in normal prostate cells (LNCaP-FGC expresses both steps, LNCaP-LNO expresses step 2, LNCaP-TAC expresses step 1, LNCaP-TJA expresses neither). The purpose of the present work is to identify the genes involved in the androgen-induced proliferative arrest of these cells. Using a Wang-Brown subtracted library, a set of shutoff specific genes has been isolated. One of these new genes, AS3, shows high expression in the early regulatory phase of androgen-induced proliferative shutoff in the cell variants and in the prostates of castrated rats. The putative 1391-residue polypeptide has the molecular size of about 186 kDa. It has coiled-coil structures that usually participate in protein-protein interactions, a perfect leucine-zipper that suggests DNA binding, nuclear localization motifs, proline- and serinerich domains, unique C-terminal acidic-basic repeats, and ATP- and DNA-binding motifs. The transcript has 34 exons in a 200,000 bp region on chromosome 13q12-q13, downstream of the breast cancer susceptibility gene BRCA2, and centromeric to the retinoblastoma (Rb1) locus. This area is subject to frequent allelic losses in cancers, and is believed to carry a number of cryptic suppressor genes. The AS3 gene seems to be a novel candidate in the regulation of androgen-induced proliferative arrest of human prostate cells.

TNF-alpha and IL-1 alpha inhibit both pyruvate dehydrogenase activity and mitochondrial function in cardiomyocytes: evidence for primary impairment of mitochondrial function.

Cytokines such as tumor necrosis factor alpha (TNF alpha) and Interleukin-1alpha (IL1alpha) are known to influence energy metabolism and mitochondrial function in tumor and vascular smooth muscle cells. The aim of the present study was to investigate whether in cardiomyocytes mitochondrial function and PDH activity may also be impaired by TNF alpha and IL1alpha. Pyruvate dehydrogenase (PDH) activity and mitochondrial oxygen consumption of cultured cardiomyocytes were determined after subchronic exposure (24 h) to TNF alpha (1, 10, 100, 1000 I.U./ml) and IL1alpha (0.1, 1, 10, 100 I.U./ml). TNF alpha- and IL1alpha- exposure of the cardiomyocytes resulted in a concentration dependent decrease of PDH activity up to 38%. In parallel, selective oxygen consumption of the respiratory chain complexes I (NADH:ubiquinone oxidoreductase) and II (succinate:ubiquinone oxidoreductase) decreased by up to 45%. Addition of the PDH activator dichloracetate (0.01 M) resulted in complete restoration of PDH activity but not of mitochondrial function. The results suggest a primary inhibition of the mitochondrial respiratory chain by TNF alpha and IL1alpha and a subsequent down regulation of PDH activity.

Expression of novel genes linked to the androgen-induced, proliferative shutoff in prostate cancer cells.

Androgens control cell numbers in the prostate through three separate pathways: (a) inhibition of cell death, (b) induction of cell proliferation (Step-1) and (c) inhibition of cell proliferation (Step-2, proliferative shutoff). The mechanisms underlying these phenomena are incompletely understood. The human prostate carcinoma LNCaP variants express these pathways as follows: LNCaP-FGC express both steps, LNCaP-LNO expresses Step-2, LNCaP-TAC expresses Step-1, and LNCaP-TJA cells express neither step. These cells facilitated the search for mediators of the androgen-induced proliferative shutoff pathway. Androgen exposure for 24 h or longer induced an irreversible proliferative shutoff in LNCaP-FGC cells. The Wang and Brown approach for identifying differentially expressed mRNAs was used to search for mediators of Step-2. Ten unique inserts were identified and from those ten, three genes were further studied. The basal expression of these genes in shutoff-negative variants was not affected by androgen exposure. They were induced by androgens in shutoff-positive LNCaP variants and the androgen receptor-transfected, shutoff-positive, MCF7-AR1 cells. These genes were induced only in the range of androgen concentrations that elicited the shutoff response. Time course analysis showed that their induction precedes the commitment point by 12-18 h. In addition, they were expressed in the normal prostate during proliferative shutoff. These features suggest that the candidate genes have a role in the regulation cascade for proliferative shutoff.

A herpesvirus saimiri protein required for interleukin-2 independence is associated with membranes of transformed T cells.

A region of the herpesvirus saimiri genome encoding an mRNA with two open reading frames (ORFs) has been identified to be essential for transformation of T cells. Deletion of either ORF resulted in the loss of transforming ability. ORF-1 has been shown to code for a collagen-like oncoprotein. This study shows for the first time that the bicistronic mRNA can translate a 32-kDa protein from ORF-2. Polyclonal serum to ORF-2 was generated by using a glutathione fusion protein. Using this antiserum, ORF-2 was localized in cell membranes and is expressed on the outer cell membrane. The half-life of this membrane protein was found to be about 5.5 h. Limited sequence similarity was found between ORF-2 and interleukin-11; however, no secretion of ORF-2 protein was detected in supernatants from transformed cells. Further studies are required to investigate the potential interaction with the interleukin-11 receptor.

Expression of IL-2 and IL-4 in T lymphocytes transformed by herpesvirus saimiri.

Herpesvirus saimiri (H. saimiri) is a highly oncogenic lymphotropic herpesvirus which can immortalize T lymphocytes and cause tumors in rabbits and New World monkeys. T cells infected with strain 484-77 of group C express four viral U-like small RNAs (HSUR1-4) and a 1.2-kb mRNA which encodes open reading frames ORF-1 and ORF-2. ORF-1 encodes a collagen-like oncoprotein. Deletion mutation analysis showed that ORF-1 and ORF-2 are essential for IL-2 independent growth of human T cells infected with H. saimiri. An earlier study also demonstrated that H. saimiri-immortalized cells carry functional IL-2 receptors. The work presented in this report investigated whether IL-2 and IL-4 is produced by H. saimiri-immortalized T lymphocytes. Both IL-2 mRNA and IL-4 mRNA were detected in various monkey T cells as well as human peripheral blood lymphocytes infected with wild-type H. saimiri. Secretion of IL-2 was suggested by cyclosporin A inhibition. IL-4 secretion by monkey T cell cultures was demonstrated by a bioassay and inhibition of bioactivity by an antibody to IL-4. The data also show that recombinant IL-4 stimulate H. saimiri-immortalized T cells; thus, IL-4 receptors are expressed. However, antibodies to human IL-4, IL-4 receptor, or soluble IL-4 receptor did not curtail growth of transformed cells. T cells infected with ORF-1 and ORF-2 deletion mutants expressed no detectable IL-2 mRNA. ORF-1, ORF-2, HSUR1, and HSUR2, were all essential for expression of IL-4 mRNA. These data are consistent with the hypothesis that H. saimiri-immortalized monkey and human T lymphocytes proliferate through autocrine secretion of IL-2 and that ORF-1, ORF-2, and HSUR sequences of the virus are involved in expression of lymphokines.

A polycistronic transcript in transformed cells encodes the dihydrofolate reductase of herpesvirus saimiri.

Herpesvirus saimiri, an oncogenic gamma herpesvirus of primates, is the only eukaryotic virus that carries the entire metabolic gene set for a complex biochemical synthesis. Every element of the thymidine synthesis gene cascade is present in the virus, and their function is probably related to the uniquely high A + T content of the genome. Although one member of the gene set, dihydrofolate reductase (DHFR), is mapped in a region required for oncogenesis, very little is known of the expression and function of this gene in transformed cells. We report the expression of the DHFR sequence on a novel, unique tricistronic transcript in virally transformed tumor cells. The DHFR sequence is the first open reading frame on a 5.3 kb minor transcript. Alpha-amanitine sensitivity indicates that it is an RNA polymerase II transcript, and since it is also polyadenylated it appears to be a functional, relatively unstable (half-life 3 hr) mRNA. Initiation of transcription uniquely overlaps with the HSUR3 small RNA gene. Expression of the small transcript appears to be alpha-amanitine resistant, implicating polymerase III transcription. Together with the remarkably low-level expression of HSUR3 in tumor cells, the data may indicate transcription interference between two different RNA polymerases, with unusual overlapping regulation and initiation.

Induction of a herpesvirus saimiri small RNA AU binding factor (AUBF70) activity and lymphokine mRNAs by T cell mitogens.

Herpesvirus saimiri (H. saimiri) can transform T lymphocytes and cause lymphoid tumors in rabbits and New World monkeys. H. saimiri-immortalized T cells express IL-2 and IL-4. The putative oncogenes of a group C strain of H. saimiri have been mapped to a region of the unique L-DNA which includes genes encoding four U-like small nuclear RNAs (HSUR1-HSUR4). Jurkat T cells express a 70 kD RNA binding factor (AUBF70) which binds HSUR2. Here we examined AUBF70 expression in resting and mitogen-stimulated human peripheral blood T cells and its sequence specificity and subcellular distribution. Band-shift assays demonstrated that resting human T cells express low amounts of AUBF70 which is induced by mitogen treatment. IL-2 and IL-4 mRNAs were co-induced with AUBF70 suggesting that AUBF70 is a positive regulator of lymphokine gene expression. Normal resting, mitogen-stimulated, and leukemic Jurkat T cells all express AUBF70 with virtually identical V8 proteolytic enzyme digestion patterns. Northern blots demonstrated that HSUR1 and HSUR2 are localized both in the nucleus and cytoplasm. HSUR2 accumulate in the cytoplasm in the presence of actinomycin D, which is consistent with re-transport of HSURs to the nucleus by (an) unstable factor(s). We hypothesize that HSUR1 and 2 transport AUBF70 from the cytoplasm to the nucleus; in the nucleus, AUBF70 binds and stabilizes lymphokine transcripts. Increased stability of lymphokine mRNAs could contribute to oncogenic transformation induced by H. saimiri.

Herpesvirus saimiri small RNA and interleukin-4 mRNA AUUUA repeats compete for sequence-specific factors including a novel 70K protein.

A highly oncogenic strain of the lymphotropic tumour virus herpesvirus saimiri (HVS; strain 484-77) expresses four small RNAs (HSUR1 to 4) in high copy numbers in transformed T cells. In HSUR1 and HSUR2 the 5' terminal regions contain conserved AUUUA sequence repeats. The same AUUUA repeats occur in the 3' non-coding regions of growth factor, lymphokine and protooncogene mRNAs, and the sequence is involved in rapid mRNA degradation. We report here that by using a highly specific u.v. cross-linking method we identified a novel 70K binding factor with AUUUA sequence specificity. Non-radiolabelled competition and V8 protease analysis show that the protein can form a complex with the 3' non-coding region of interleukin-4 mRNA and bind the AUUUA repeats of a HVS small RNA. We also detected an AUUUA-specific minor 32K human protein with the same electrophoretic mobility as a marmoset factor implicated in growth factor mRNA destabilization. The findings are consistent with the hypothesis that the viral small RNAs can compete for factors involved in rapid degradation of growth factor mRNAs and may contribute to viral oncogenesis.

Small RNA expression from the oncogenic region of a highly oncogenic strain of herpesvirus saimiri.

Herpesvirus saimiri induces acute lymphomas and leukemias in primates and rabbits. Sequence divergence of the right end unique region of the genome classifies virus strains into three groups (A, B, and C), and previous studies have demonstrated correlation between DNA grouping and oncogenicity. In order to relate different oncogenicity to the underlying molecular mechanisms, we reported earlier the expression of a bicistronic mRNA from the oncogenic region in a highly oncogenic group C strain, and the present study is the first report on small RNA transcripts from the same region. The transcripts and 6.2 kbp on the oncogenic region were sequenced and characterized. We show that four U-type small RNAs are expressed in tumor cells transformed by this strain, in contrast to the seven small RNAs reported from a weakly oncogenic group A strain. Sequence comparisons between the two strains showed that the right end region of strain 484-77 of group C is about 1 kbp shorter. The conserved 5' AUUUA repeats of some small RNAs, and their proposed implication in lymphokine mRNA stabilization, are also discussed.

Expression of the collagen-like putative oncoprotein of Herpesvirus saimiri in transformed T cells.

Herpesvirus saimiri induces acute lymphomas and leukemias in New World primates and rabbits. Previous work revealed that a highly oncogenic group C strain 484-77 encodes and expresses a bicistronic mRNA in tumor-derived T cells and the first open reading frame (orf1) is highly homologous to collagen. With the aid of an antibody against a synthetic orf1 peptide, we now report that the orf1 collagen-like protein is expressed in rabbit tumor derived cell lines and in vitro transformed human and monkey T cells. The orf1 protein is expressed in vivo, as indicated by specific antibodies detected in the serum from a tumor-bearing rabbit.

IL-2 independent growth and cytotoxicity of herpesvirus saimiri-infected human CD8 cells and involvement of two open reading frame sequences of the virus.

Herpesvirus saimiri is a primate tumor virus and induces acute T cell lymphomas and leukemias in New World monkeys and rabbits. We show in this report that infection of human peripheral white blood cells with a group C strain 484-77 results in selective expansion of CD8 lymphocytes with strong cytotoxic activity and these cells do not require interleukin-2 (IL-2) for growth. Infected cell cultures, termed herpesvirus-activated killer (HAK) cells, have been continuously maintained for several months in tissue culture and these HAK cells contain multiple copies of stable circular viral episomes. The growth and cytotoxicity of HAK cells was found independent of IL-2. Analysis of deletion mutant infected cells suggests that at least two open reading frame sequences of a bicistronic mRNA encoded by the viral genome is involved in controlling IL-2 independence. This model could facilitate studies on growth regulation of human cytotoxic T cells that are important effector cells in immune responses against infectious diseases and cancer and should help us to elucidate the mechanism of transformation by H. saimiri oncogenes.

Uncoupling activity and physicochemical properties of derivatives of fluazinam.

The physico-chemical properties and uncoupling activity of eight derivatives of N-phenyl-2-pyridinamines related to the fungicide fluazinam were analyzed using rat liver mitochondria. The uncoupling activity of these compounds relies on the deprotonable secondary amino group. One of the derivatives tested (B-3) was slightly more efficient than fluazinam. By phase-distribution analysis we could show that the N-phenyl-2-pyridinamines are chemicals with moderate hydrophobicity. Deprotonation of the compound reduces the water/octanol partition coefficient by about one order of magnitude. The pKA value of the deprotonable group is affected equally by electron withdrawing substituents of the phenyl- and the pyridinyl-ring, and could be predicted simply from the sum of the Hammett coefficients. The uncoupling efficiency was not dependent on the hydrophobicity of the compound, but appeared to be governed by the pKA of the deprotonable group. This structure/uncoupling characteristic is different from that of the generally more hydrophobic uncouplers of the salicylanilide-type. The pKA resulting in the most efficient uncoupling was found to lie in the range of the pH of the reaction medium. A model based on a solution complexation mechanism, which describes this behaviour, is presented. We conclude that the N-phenyl-2-pyridinamines uncoupled the mitochondria by a simple protonophoric cycle involving protonation/deprotonation in the bulk phase, and that the kinetics of uncoupling were primarily governed by the total concentration of the limiting uncoupler species.

A mathematical method for the identification of the ATGCAT recognition sequence of a Streptococcus mutans restriction endonuclease.

Taking advantage of a mathematical equation applied so far in different fields the calculation of ATGCAT recognition sequence of restriction endonuclease from Streptococcus mutans serotype C (SmuC I) is reported together with confirming computer and physical mapping data.

Identification of ATGCAT sequence at sites of SmuC I restriction endonuclease by computer and physical mapping of adenovirus type 1 DNA.

Physical mapping of adenovirus type 1 DNA was carried out in order to analyze the recognition sequence of a novel Streptococcus restriction endonuclease. In addition to the new map and homology data on this poorly analyzed serotype, the result offers the definite evidence for the ATGCAT recognition sequence on adenovirus DNA and the physical map of cleavage points.