Subsenescent telomere lengths in fibroblasts immortalized by limiting amounts of telomerase

Human fibroblasts expressing the catalytic component of human telomerase (hTERT) have been followed for 250-400 population doublings. As expected, telomerase activity declined in long term culture of stable transfectants. Surprisingly, however, clones with average telomere lengths several kilobases shorter than those of senescent parental cells continued to proliferate. Although the longest telomeres shortened, the size of the shortest telomeres was maintained. Cells with subsenescent telomere lengths proliferated for an additional 20 doublings after inhibiting telomerase activity with a dominant-negative hTERT mutant. These results indicate that, under conditions of limiting telomerase activity, cis-acting signals may recruit telomerase to act on the shortest telomeres, argue against the hypothesis that the mortality stage 1 mechanism of cellular senescence is regulated by telomere positional effects (in which subtelomeric loci silenced by long telomeres are expressed when telomeres become short), and suggest that catalytically active telomerase is not required to provide a protein-capping role at the end of very short telomeres.     

The in vitro life-span of human periodontal ligament fibroblasts

The in vitro life-span of human periodontal ligament fibroblasts (PDLF) was studied on clones from periodontium of teeth extracted due to periodontitis and dental caries (69 clones/192 individuals, aged 20-80 years) and from periodontium of teeth extracted for orthodontic reasons (23 clones/26 individuals, aged 15-19 years). In the primary cultures the ratio of the number of cells expressing senescence-associated beta-galactosidase (SA-beta-Gal) to the total number of cells is significantly larger in PDLF (92 clones; 11.1+/-4.9%) than in human gingival fibroblasts (GF) (10 clones; 0.5+/-0.1 %). The finite population doubling numbers (PD) of PDLF are not age-matched and the mean PD of PDLF (7.1+/-2.9) is significantly smaller than GF (28.5+/-3.2), IMR-90 (human lung fibroblasts, 5 clones; 44.3 +/- 2.2), and human osteoblasts (5 clones; 19.7+/-1.4). Comparing the ratio of the number of SA-beta-Gal positive cells to the total number of cells in primary culture, and the finite PD in PDLF cultures: 1) the ratio of 15-19 years old donor group is significantly smaller than in the other donor groups (20-29, 30-39, 40-49, 50-59 and 60-80 years old), and 2) there were no statistically significant differences among the 20-29, 30-39, 40-49 and 50-59 year old donor groups, and the 30-39, 40-49, 50-59 and 60-80 year old donor groups. These findings suggest that the in vitro life-span of PDLF is shorter than other fibroblasts in the connective tissues and that PDLF may undergo senescence in adult clones without relation to donor's age. There may be more aged fibroblasts in periodontium than in other tissues, such as gingiva and lung.     

Cloning and sequence analysis of cDNAs encoding the MHC class II β chain in Atlantic salmon (Salmo salar)

Atlantic salmon (Salmo salar) cDNAs encoding the major histocompatibility complex (Mhc-Sasa) class II chain were isolated from a leucocyte library by a polymerase chain reaction (PCR) approach. Three different cDNAs (c144, c22, and c157) encoding the entire mature chain have been analyzed. Clone c144 differs from clone c157 in 12.6% of the nucleotides in the 1-encoding region. The corresponding differences between clones c144 and c22, and clones c22 and c157, are 10.3% and 5.2%, respectively. This variation is, at least in part, most likely attributable to allelism. The similarity indices between the highly conserved 2 domains from Atlantic salmon and corresponding sequences from humans (DQ), chicken (BL), carp (TLAII-1), and rainbow trout (O. M. No. 55) are 45%, 40%, 66%, and 97%, respectively. Variable residues in the 1 domains from Atlantic salmon correspond with polymorphic sites of 1 domains from higher vertebrates. The frequency of substitutions in the 1-encoding region exceeds that in the 3-untranslated (UT) region with several folds, indicating extensive 1 polymorphism in Atlantic salmon.The nucleotide sequence data reported in this paper have been submitted to the GenBank nucleotide sequence database and have been assigned the accession numbers (C 144) X 70165, (C 157) X 70166, and (C 22) X 70167.This study was supported by grants from the Norwegian Fisheries Research Council (NFFR) and the Norwegian Agricultural Research Council (NLVF).     

Peroxynitrite production by TNF-alpha and IL-1beta: implication for suppression of osteoblastic differentiation

To determine the roles of nitric oxide (NO) and its metabolite, peroxynitrite (ONOO(-)), on osteoblastic activation, we investigated the effects of a NO donor [ethanamine, 2, 2'-(hydroxynitrosohydrazono)bis- (dNO)], an O(-2) donor (pyrogallol), and an ONOO(-) scavenger (urate) on alkaline phosphatase (ALPase) activity and osteocalcin gene expression, which are indexes of osteoblastic differentiation. dNO elevated ALPase activity in the osteogenic MC3T3-E1 cell line. The combination of dNO and pyrogallol reduced both ALPase activity and osteocalcin gene expression. Because both indexes were recovered by urate, ONOO(-), unlike NO itself, inhibited the osteoblastic differentiation. Furthermore, treatment with a combination of the proinflammatory cytokines tumor necrosis factor-alpha (TNF-alpha) and interleukin-1beta (IL-1beta) was found to yield ONOO(-) as well as NO and O(-2). The reductions in ALPase activity and osteocalcin gene expression were also restored by urate. We conclude that ONOO(-) produced by TNF-alpha and IL-1beta, but not NO per se, would overcome the stimulatory effect of NO on osteoblastic activity and inhibit osteoblastic differentiation.     

Telomere length status of somatic cell sheep clones and their offspring

This study was carried out to determine the telomere length status of sheep clones and their offspring, and to examine telomere dynamics and chromosomal abnormalities in culture propagated donor cells. Skin samples were collected from somatic cell nuclear transfer-derived sheep clones, and three of their progeny generated by natural mating. Samples were collected from control animals (n = 35), spanning in age from 1 month to 36 months of age. Genomic DNA was extracted from cell/tissue samples and their telomere lengths were assessed by terminal restriction fragment (TRF) analysis. Results revealed: that (a) sheep clones derived from cultured somatic cells have shortened telomere lengths compared to age-matched controls; (b) the offspring derived from natural mating between clones had normal telomere lengths compared to their age-matched counterparts; and donor cell cultures beyond 20 population doublings had significantly (P < 0.05) shortened telomeres and exhibited a higher numerical and structural chromosomal abnormalities.     

Osteogenic imprinting upstream of marrow stromal cell differentiation

Five spontaneously transformed cell lines were established from a population of murine bone marrow stromal cells (BMSCs) and the expression profiles of phenotype-characteristic genes, patterns of in vitro differentiation, and osteogenic capacity after in vivo transplantation were determined for each. All the clones expressed stable levels of cbfa1, the osteogenic "master" gene, whereas the levels of individual phenotypic mRNAs were variable within each, suggestive of both maturational and phenotypic plasticity in vitro. Varying levels of collagen type I and alkaline phosphatase (AP) were expressed in all the clonal lines. The clonal lines with proven in vivo osteogenic potential (3 out of 5) had a high proliferation rate and expressed bone sialoprotein (BSP), whereas the two nonosteogenic clones proliferated more slowly and never expressed BSP. Bone nodules were only observed in 2 out of 3 of the osteogenic lines, and only 1 out of three formed cartilage-like matrix in vitro. There was no evidence of chondrogenesis in the nonosteogenic lines. By contrast, LPL was expressed in two osteogenic and in two nonosteogenic lines. These results demonstrate the presence of multipotential and restricted progenitors in the murine stromal system. cbfa1, collagen type I, and AP expression were common to all, and therefore presumably early, basic traits of stromal cell lines that otherwise significantly differ with respect to growth and differentiation potential. This finding suggests that an osteogenic imprinting lies upstream of diversification, modulation, and restriction of stromal cell differentiation potential.     

Purification and properties of a novel β-galactosidase or exo-(1 → 4)-β-d-galactanase from the cotyledons of germinated Lupinus angustifolius L. seeds

The main polysaccharide component of the thickened cell walls in the storage parenchyma of Lupinus angustifolius L. cotyledons is a linear (1 4)--linked d-galactan, which is mobilised after germination (L.A. Crawshaw and J.S.G Reid, 1984, Planta 160, 449–454). The isolation from the germinated cotyledons of a -d-galactosidase or exo-(1 4)--d-galactanase with a high specificity for the lupin galactan is described. The enzyme, purified using diethylaminoethyl-cellulose, carboxymethyl-cellulose and affinity chromatography on lactose-agarose, gave two bands (major 60 kDa, minor 45 kDa) on sodium dodecyl sulphate-gel electrophoresis, and two similar bands on isoelectric focusing (major, pI 7.0, minor pI 6.7, both apparently possessing enzyme activity). The minor component cross-reacted with an antiserum raised against, and affinity-purified on, the major band. Both components had a common N-terminal sequence. The minor component was probably a degradation product of the major one. The enzyme had limited -galactosidase action, catalysing the hydrolysis of p-nitrophenyl--d-galactopyranoside and (1 4)- and (1 6)--linked galactobioses. Lactose [-d-galactopyranosyl-(1 4)-d-glucose] was hydrolysed only very slowly and methyl--d-galactopyranoside not at all. Lupin galactan was hydrolysed rapidly and extensively to galactose, whereas other cell-wall polysaccharides (xyloglucan and arabinogalactan) with terminal non-reducing -d-galactopyranosyl residues were not substrates. A linear (1 4)--linked galactopentaose was hydrolysed efficiently to the tetraose plus galactose, but further sequential removals of galactose to give the tetraose and lower homologues occurred more slowly. Galactose, -galactonolactone and Cu⁺² were inhibitory. No endo--d-galactanase activity was detected in lupin cotyledonary extracts, whereas exo-galactanase activity varied pari passu with galactan mobilisation. Exo-galactanase protein was detected, by Western immunoblotting of cotyledon extracts, just before the activity could be assayed and then increased and decreased in step with the enzyme activity. The exo-galactanase is clearly a key enzyme in galactan mobilisation and may be the sole activity involved in depolymerising the dominant (1 4)--galactan component of the cell wall.Abbreviations CM carboxymethyl - DEAE diethylaminoethyl - SDS-PAGE sodium dodecyl sulphate-polyacrylamide gel electrophoresis - TLC thin-layer chromatography We wish to thank CNPq (Conselho Nacional de Desenvolvimento Científico e Tecnológico) for the award of a studentship to M.S. Buckeridge, and the Government of São Paulo State, Brazil for granting him leave of absence. We are grateful to Dr. Amanda Heyller (Unilever Research Laboratory, Colworth House, Bedford, UK) for N-terminal sequence determinations, to Dr. Stuart Wilson (Stirling) for preparing gelatin SDS-gels and to Cristina Fanutti (Stirling) for purifying the xyloglucan oligosaccharide.     

Reversible manipulation of telomerase expression and telomere length. Implications for the ionizing radiation response and replicative senescence of human cells

Most human cells do not express telomerase and irreversibly arrest proliferation after a finite number of divisions (replicative senescence). Several lines of evidence suggest that replicative senescence is caused by short dysfunctional telomeres, which arise when DNA is replicated in the absence of adequate telomerase activity. We describe a method to reversibly bypass replicative senescence and generate mass cultures that have different average telomere lengths. A retrovirus carrying hTERT flanked by excision sites for Cre recombinase rendered normal human fibroblasts telomerase-positive and replicatively immortal. Superinfection with retroviruses carrying wild-type or mutant forms of TIN2, a negative regulator of telomere length, created telomerase-positive, immortal populations with varying average telomere lengths. Subsequent infection with a Cre-expressing retrovirus abolished telomerase activity, creating mortal cells with varying telomere lengths. Using these cell populations, we show that, after hTERT excision, cells senesce with shorter telomeres than parental cells. Moreover, long telomeres, but not telomerase, protected cells from the loss of division potential caused by ionizing radiation. Finally, although telomerase-negative cells with short telomeres senesced after fewer doublings than those with long telomeres, telomere length per se did not correlate with senescence. Our results support a role for telomere structure, rather than length, in replicative senescence.     

Enforced telomere elongation increases the sensitivity of human tumour cells to ionizing radiation

More than 85% of all human cancers possess the ability to maintain chromosome ends, or telomeres, by virtue of telomerase activity. Loss of functional telomeres is incompatible with survival, and telomerase inhibition has been established in several model systems to be a tractable target for cancer therapy. As human tumour cells typically maintain short equilibrium telomere lengths, we wondered if enforced telomere elongation would positively or negatively impact cell survival. We found that telomere elongation beyond a certain length significantly decreased cell clonogenic survival after gamma irradiation. Susceptibility to irradiation was dosage-dependent and increased at telomere lengths exceeding 17 kbp despite the fact that all chromosome ends retained telomeric DNA. These data suggest that an optimal telomere length may promote human cancer cell survival in the presence of genotoxic stress.     

Expression of Telomerase and Telomere Length Are Unaffected by either Age or Limb Regeneration in Danio rerio

Background

The zebrafish is an increasingly popular model for studying many aspects of biology. Recently, ztert, the zebrafish homolog of the mammalian telomerase gene has been cloned and sequenced. In contrast to humans, it has been shown that the zebrafish maintains telomerase activity for much of its adult life and has remarkable regenerative capacity. To date, there has been no longitudinal study to assess whether this retention of telomerase activity equates to the retention of chromosome telomere length through adulthood.

Methodology/Principal Findings

We have systematically analyzed individual organs of zebrafish with regard to both telomere length and telomerase activity at various time points in its adult life. Heart, gills, kidney, spleen, liver, and intestine were evaluated at 3 months, 6 months, 9 months, and 2 years of age by Southern blot analysis. We found that telomeres do not appreciably shorten throughout the lifespan of the zebrafish in any organ. In addition, there was little difference in telomere lengths between organs. Even when cells were under the highest pressure to divide after fin-clipping experiments, telomere length was unaffected. All aged (2 year old) tissues examined also expressed active amounts of telomerase activity as assessed by TRAP assay.

Conclusions/Significance

In contrast to several other species including humans, the retention of lifelong telomerase and telomeres, as we have reported here, would be necessary in the zebrafish to maintain its tremendous regenerative capacity. The ongoing study of the zebrafish''s ability to maintain telomerase activity may be helpful in unraveling the complexity involved in the maintenance (or lack thereof) of telomeres in other species such the mouse or human.     

Effects of NaOH-PIPES buffer used in aldehyde fixative on alkaline phosphatase activity in rat hepatocytes

Summary Effects of NaOH-PIPES buffer used as a vehicle for aldehyde fixative on alkaline phosphatase (ALPase) activity demonstrated cyto- and biochemically were compared with those of routinely used cacodylate buffer. The reaction products showing ALPase activity demonstrated ultracytochemically were confined to the bile canalicular membranes when cacodylate buffer (0.1 M) was used. However, when PIPES¹ buffer (0.03 M or 0.1 M) was used, the activity was observed on whole membranes of hepatocytes. The activities of the sinusoidal, lateral and bile canalicular membranes were completely suppressed by an addition of 2.5 mM levamisole. Moreover, the same results were obtained when HEPES² or low concentration of cacodylate buffer (0.01 M) was used. Biochemical estimation revealed that much higher activity was retained when PIPES or HEPES buffer was used as compared with that when cacodylate buffer was used. Maximum preservation of ALPase activity was obtained when PIPES buffer was used. Cacodylate buffer showed an inhibitory effect on the hepatic ALPase activity in proportion to the buffer concentration.In conclusion, PIPES buffer preserves the alkaline phosphatase activity much better and is a better vehicle for the aldehyde fixatives in alkaline phosphatase cytochemistry.1 PIPES piperazine-N,N-bis (2-ethanesulfonic acid) - 2 HEPES N-2-hydroxyethylpiperazine-N-2-ethanesulfonic acid This study was supported by a Grant-in Aid for Encouragement of Young Scientists from the Ministry of Education, Science and Culture, the Japanese Government (No. 57770012)     

Impairment of osteocalcin production in senescent periodontal ligament fibroblasts

Osteocalcin production of senescent periodontal ligament fibroblasts (PDLF) with the expression of senescence-associated beta-galactosidase (SA-beta-Gal) was investigated on clones from 50-80 years old donors (n=20) with teeth extracted due to periodontitis and dental caries, and from 15-19 year old donors (n=20) with normal teeth extracted for orthodontic reasons. Immunohistochemically, the nonsenescent PDLF in all cultures in passage 2 showed strong reactivity with anti-osteocalcin. The reactive intensity of PDLF (passage 2, PD 3.0) was significantly stronger in 50-80 year old donor group than in 15-19 year old donor group, suggesting that osteocalcin production of PDLF cultured in early passage is larger in cells from adult population than in cells from adolescent population. In PDLF cultures in passage 2 from 50-80 year old donor, two types of senescent cells were found: one with strong reactivity to anti-osteocalcin and the other with little detectable reactivity. The culture consisted of senescent PDLF (passage 8, PD 14.8) did not include cells which have a detectable reactivity with anti-osteocalcin immunohistochemically and the reactive intensity was significantly weaker in the senescent culture than in the culture in passage 2 by ELISA. This suggests that the production potential of osteocalcin is impaired in PDLF with aging in culture. Further, the reactive intensity with anti-osteocalcin of PDLF in passage 2 deprived of serum for 48 h was 6% of that of cells cultured with serum and the reaction increased after serum stimulation, suggesting that the osteocalcin production in PDLF in early passage is implicated in mitogenic stimulation.     

Oxidative and assimilative enzyme activities in continuous cultures of the obligate methylotrophMethylobacillus flagellatum

In methanol-limited continuous cultures of the obligate methylotrophic bacteriumMethylobacillus flagellatum grown at rates from 0.05 to 0.63 h^-1, and also in an oxyturbidostat culture ofM. flagellatum growing at the rate of 0.73 h^-1, levels of methanol dehydrogenase, enzymes of formaldehyde oxidation (both linear and cyclic) and assimilation (RuMP cycle), a number of intermediary metabolism and TCA cycle enzymes and also dye-linked formaldehyde dehydrogenase were determined. It was shown that the activities of dissimilatory enzymes, with the exception of dye-linked formaldehyde dehydrogenase, decreased with increasing growth rate. Activities of assimilative enzymes and activities of the TCA cycle enzymes detected as well as the dye-linked formaldehyde dehydrogenase activity, increased with increasing growth rate. A periplasmic location was shown for the latter enzyme and a role in formaldehyde detoxification was proposed.     

Isolation of the pullulanase gene fromClostridium thermosulfurogenes (DSM 3896) and its expression inEscherichia coli

The pullulanase gene fromClostridium thermosulfurogenes (DSM 3896) was cloned and expressed inEscherichia coli with pUC18 as cloning vector. Two clones showed expression of amylolytic enzymes which were active at high temperatures. One of the recombinant plasmids (pCT3) containing a 5.3 kbp insert coded for the pullulanase gene; the other (pCT4, 4.4 kbp insert) carried the same-amylase gene as the previously described plasmid pCT2 (2.9 kpb insert, 7). The pullulanase gene was efficiently transcribed inE. coli, apparently using its own promoter; the enzyme was not secreted into the medium. No difference in the temperature optimum and thermostability between the original and the heterologously expressed (inE. coli) enzyme could be found.     

Measurement of the carrying capacity of benthic habitats using a metabolic-rate based index

Carrying capacities of grazed habitats are typically expressed as numbers or biomass of animals per unit area; however, such parameters are appropriate only when the body size of animals is constant because consumption and other metabolic-rate based parameters such as respiration and production are proportional to body mass raised by a power of 0.75 rather than 0 or 1. Habitat carrying levels are therefore better expressed in the form of an index of total community consumption by summing the body masses of individual animals after they have been scaled using a biomass exponent of 0.75. A parameter scaled in this way,P ₂₀, varied in a predictable manner when calculated for the mobile epifaunal assemblages associated with rope fibre habitats placed at marine and estuarine sites;P ₂₀ showed no significant difference between 17 shallow, clear-water sites worldwide, but declined consistently when photosynthesis was reduced.P ₂₀ also did not vary significantly when calculated for the mobile epifaunal communities associated with fourAmphibolis antarctica seagrass habitats in Australia ( = 100 µg ·g^–1 · day^–1), and reached but did not significantly exceed a ceiling of 280 g · g^-1 · day^-1 forSargassum plants. These results are consistent with the hypothesis that the production of shallow-water epifaunal communities of grazers is constrained by resource ceilings which can be quantified using metabolic-rate based indices. If this production ceiling hypothesis is correct then diffuse competition is generally more important than predation or environmental disturbance in restricting the growth of mobile epifaunal populations.     

Dependence of the regulation of telomere length on the type of subtelomeric repeat in the yeast Saccharomyces cerevisiae.

In the yeast Saccharomyces cerevisiae, chromosomes terminate with approximately 400 bp of a simple repeat poly(TG(1-3)). Based on the arrangement of subtelomeric X and Y' repeats, two types of yeast telomeres exist, those with both X and Y' (Y' telomeres) and those with only X (X telomeres). Mutations that result in abnormally short or abnormally long poly(TG(1-3)) tracts have been previously identified. In this study, we investigated telomere length in strains with two classes of mutations, one that resulted in short poly(TG(1-3)) tracts (tel1) and one that resulted in elongated tracts (pif1, rap1-17, rif1, or rif2). In the tel1 pif1 strain, Y' telomeres had about the same length as those in tel1 strains and X telomeres had lengths intermediate between those in tel1 and pif1 strains. Strains with either the tel1 rap1-17 or tel1 rif2 genotypes had short tracts for all chromosome ends examined, demonstrating that the telomere elongation characteristic of rap1-17 and rif2 strains is Tel1p-dependent. In strains of the tel1 rif1 or tel1 rif1 rif2 genotypes, telomeres with Y' repeats had short terminal tracts, whereas most of the X telomeres had long terminal tracts. These results demonstrate that the regulation of telomere length is different for X and Y' telomeres.     

Structural comparison of the genes of two HLA-DR supertypic groups: The loci encoding DRw52 and DRw53 are not truly allelic

The organization and sequence of the HLA-DR chain genes are compared in the two supertypic groups, DRw52 and DRw53, which together account for more than 80% of HLA-DR alleles. From the structural data, we conclude that these two groups represent distinct lineages which have followed different patterns of evolution. The fine structure of the chain locus encoding the DRw53 specificity corresponds most closely to the DR II pseudogene in the DRw52 haplotypes. Concomitantly, the DR I locus in DRw53 haplotypes is more closely related to both of the two expressed DR loci of theDRw5 haplotypes (DR I and DR III). These two loci are the result of a recent duplication. This leads to the proposal that both expressed DR chain genes in the DRw52 haplotypes (DR I and DR III) are derived from a single precursor locus, while the two loci expressed in the DRw53 haplotypes are derived from distinct ancestral loci. The genes encoding DRw52 and DRw53 are therefore not true alleles of the same original locus. A scheme is proposed that accounts for the evolution of DR specificities within the DRw52 and DRw53 groups of haplotypes. It is evident that the differentHLA-DR alleles are not structurally equidistant and that one must take into consideration different degrees of heterozygosity or mismatch among the DR alleles.     

Short Telomeres in ESCs Lead to Unstable Differentiation

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Highlights? ESCs with short telomeres do not stably differentiate and can resume proliferation ? Critically short telomeres impair Nanog regulation during ESC differentiation ? Short telomeres elicit genome-wide DNA hypomethylation and altered H3K27me3 levels ? Impaired DNA methylation and differentiation are rescued by Dnmt3b or telomere elongation     

Telomere length mediates the effects of telomerase on the cellular response to genotoxic stress

Telomerase inhibition may be a novel anti-cancer strategy that can be used in combination with conventional therapies, such as DNA damaging agents. There are conflicting reports as to whether and to what extent telomerase and telomere length influence the sensitivity of cells to genotoxins. To understand the relationship between telomere length, telomerase expression, and sensitivity to genotoxic stress, we expressed the catalytic subunit of telomerase, hTERT, in human fibroblasts having different telomere lengths. We show that telomerase confers resistance to ionizing radiation, bleomycin, hydrogen peroxide, and etoposide only in cells with short, presumably near-dysfunctional, telomeres. This resistance depended on the ability of telomerase to elongate the short telomeres, and telomerase did not protect cells with long telomeres. Interestingly, although long telomeres had no effect on sensitivity to etoposide and bleomycin, they exacerbated sensitivity to hydrogen peroxide, supporting the idea that, compared to other types of DNA damage, telomeres are particularly vulnerable to oxidative damage. Our findings identify a mechanism and conditions under which telomerase and telomeres affect the response of human cells to genotoxic agents and may have important implications for anti-cancer interventions.