Harmful B-chromosomes in a mealy bug: additional evidence

The B-chromosomes (B's; supernumeraries) of the mealy bug, Pseudococcus obscurus Essig, segregate preferentially into the two functional products of male meiosis. This segregation thus serves as an accumulation mechanism. A cytological study of a population from Oakland, California, confirmed the results obtained earlier that the B's are harmful and are maintained only because of their accumulation mechanism. The wild females were studied directly. The number of B's in the males was determined by analyzing ten or more daughters of females without B's (0B females) after these were inseminated by wild males. The 0B females were exposed to the wild males in screen cages. The analysis of 4732 daughters of 231 caged females indicated that among the males which inseminated these females, there were 19.9% 0B males and the mean number of B's was 1.46 ± 0.07. Among 224 wild females which were collected at about the same time there were 12.5% 0B females, and the mean number of B's was 1.88 ± 0.09. Since the frequencies of the B's in the population changed only slightly from generation to generation, the expected zygotes of this generation were assumed to be similar to those from which both the males and the females developed. The expected zygotes were calculated from the observed frequencies of the B's among the sperm and the known rates of transmission in females. The zygotes were very similar to the females but quite different from the males. It was concluded, therefore, that the B's had little or no effect on the females carrying them, but reduced the fitness of the males. The fitness of the 0B, 1B, 2B, 3B and 4B males was calculated to be 1.00, 0.64, 0.56, 0.38 and 0.20 respectively. The rate of transmission of the B's decreased with the increase in the number of B's, from 0.84 in 1B males to 0.51 in 4B males. This decrease, and the decrease in male fitness with the increase in the number of B's are expected to help stabilize the number of B's in the population.This paper is dedicated to Professor Sally Hughes-Schrader on the occasion of her seventy-fifth birthday.Supported by grants GB 1585 and GB 6745 from the National Science Foundation, Washington, D. C.     

Asymmetric decondensation of the L cell heterochromatin by Hoechst 33258

A benzimidazole derivative, Hoechst 33258 can induce decondensation of constitutive heterochromatin in the mouse derived L cell chromosomes when the compound is given in sufficiently high concentration (40 micrograms/ml) to the L cell culture. Hoechst 33258 at low concentration (1 micrograms/ml, 16 h) cannot produce this effect on L cell chromosomes. Bromodeoxyuridine (BUdR) incorporation for one cell cycle simultaneous with the Hoechst 33258 treatment at low concentration could decondense heterochromatin segments in metaphase chromosomes. The heterochromatin decondensation, however, was asymmetric; it was observed only on one chromatid and the other of a chromosome remained in condensed state. The observation of asymmetric decondensation of heterochromatin by Hoechst 33258 after BUdR incorporation for one cell cycle, the association of A-T rich satellite DNA to mouse heterochromatin, and available data on the specific binding of Hoechst 33258 to A-T base pairs of DNA and on the higher affinity of the compound to BUdR substituted DNA than to ordinary DNA implied that the binding of Hoechst 33258 molecules to A-T rich satellite DNA is the cause of heterochromatin decondensation.     

Inhibition of mitochondrial substrate anion translocators by a synthetic amphipathic polyanion

A synthetic polyanion (a copolymer of methacrylate, maleate, and styrene in 1:2:3 proportion with an average molecular weight of 10,000 dalton) inhibits the tricarboxylate, oxoglutarate, dicarboxylate, and adenine nucleotide translocators of rat liver mitochondria. The activity versus inhibitor concentration curves are sigmoidal. The inhibition of the oxoglutarate and tricarboxylate translocators by the polyanion is competitive, while that of the adenine nucleotide translocator is of mixed-type. TheK ₁ values of the polyanion are the following: for oxoglutarate translocator 4.0 µM, tricarboxylate translocator 1.2 µM, and adenine nucleotide translocator 1.3 µM with ADP and 0.8 µM with ATP. It is suggested that the polyanion acts primarily by increasing the negative charge of the inner membrane at the outer surface, and the sensitivity of the translocators toward the polyanion depends on the number of negative charges of their substrates.     

Nonreplication of heterochromatic chromosomes in a mealy bug,Planococcus citri (Coccoidea: Homoptera)

In males of mealy bugs with the lecanoid chromosome system, the paternal set of chromosomes becomes heterochromatic in early embryogeny. In males of the mealy bug, Planococcus citri, the heterochromatic (H) set in testis sheath cells and in most of the oenocytes apparently did not replicate while the euchromatic (E) set was undergoing several cycles of endoreplication. In third instar males, testis sheath cells in endoanaphase and endotelophase exhibited 5H and either 40 or 80E chromosomes. The increase in the number of E chromosomes was attributed to the replication of only the E chromosomes. Oenocytes of third instar males had 0, 5, or 10H chromosomes and from 10 to 240E chromosomes. The oenocytes with 5H chromosomes had a mean of 50.8E chromosomes, and those with 10H chromosomes had a mean of 155.6E chromosomes. Nuclear and cell fusion was considered as a means of producing the various numbers of H and E chromosomes in oenocytes, and it was concluded that although nuclear fusion probably took place, the differences between the number of H and E chromosomes was at least in part due to replication of only the E chromosomes. The size of the H chromosomes was about the same in all the testis sheath cells and the oenocytes irrespective of the level of endopolyploidy for the E set. These H chromosomes apparently did not increase in polyteny, because they were only about half the size of the H chromosomes in prophase I of spermatogenesis. The significance of the nonreplication of the H set and the control of nonreplication are briefly discussed.This study was aided by a grant (GB-1585) from the National Science Foundation, Washington, D.C.     

HP2-like protein: a new piece of the facultative heterochromatin puzzle

In Drosophila melanogaster, the two chromosomal proteins HP1 and HP2 colocalize on heterochromatic and euchromatic sites in polytene chromosomes. Mutations in the HP2 gene act as dominant suppressors of position effect variegation, demonstrating a role for HP2 in the formation or maintenance of heterochromatin. In this paper, we investigated whether a putative homolog of the D. melanogaster HP2 is involved in the facultative heterochromatinization process in mealybugs. Using an antibody raised against the Drosophila HP2, we identified in the mealybug Planococcus citri a cross-reactive epitope, which we refer to as HP2-like. We investigated the HP2-like pattern during the male embryo development where the entire paternal haploid chromosome set becomes heterochromatic. The HP2 antibody heavily decorates the chromocenters, where it localizes with HP1, and marks the chromatin before it acquires the full cytological characteristics of the male-specific heterochromatin. In euchromatic chromosomes, HP2-like is mainly concentrated at telomeric sites. The interplay between HP2-like and HP1-like was studied by dsRNA interference experiments. Extinguishing HP1-like expression by RNAi does not prevent the association of HP2-like with facultative heterochromatin, implying that HP2-like binds to chromatin in a HP1-independent manner. Our results confirm and extend the structural and functional conservation of proteins involved in heterochromatin assembly. Silvia Volpi and Silvia Bongiorni contributed equally to the work.     

Inhibition of adenine nucleotide transport through the mitochondrial porin by a synthetic polyanion

The effect of a synthetic polyanion of Mr 10,000 (a copolymer of methacrylate, maleate and styrene in a 1:2:3 proportion) was studied on isolated rat liver mitochondria and on mitochondrial porin reconstituted into lipid bilayer membranes. Increasing concentrations of the polyanion inhibited the adenyl kinase located between both mitochondrial membranes in a dose-dependent fashion. Upon addition of the detergent digitonin in increasing concentrations the adenyl kinase activity was fully reversible. In reconstitution experiments with mitochondrial porin the polyanion increased the voltage dependence of the pore in such a way that the pore is switched into the closed state at much smaller voltages than in the absence of the polyanion. The asymmetric addition of the polyanion resulted in an asymmetric shift of the voltage-dependence of the pore. If the voltage is negative at the cis-side (the side of the addition of the polyanion) the pore closed rapidly whereas it was always open for potentials of opposite polarity. The results are discussed on the basis of a modification of the gate properties of the mitochondrial porin by the polyanion and by the assumption that the closed state of the pore is not permeable for nucleotides.     

Differential sensitivity of constitutive and facultative heterochromatin in orthopteran chromosomes to digestion by DNaseI

In situ pancreatic DNaseI digestions were used as probes to study the structural organization of facultative and constitutive heterochromatin during both mitotic and meiotic divisions. Three different types of heterochromatic regions from three insect species were chosen for this study. These regions had been previously characterized by in situ treatments with restriction endonucleases (AT and GC rich DNA sequences). Progressive increase in DNaseI concentration (from 10 to 200 ng/ml) or in incubation time (from 5 to 30 min) revealed a specific pattern of sequential digestion of the constitutive heterochromatic regions, the centromeric ones (AT-rich DNA) being the most resistant to DNaseI action. The interstitial C-bands (with AT or GC-rich DNA) were more sensitive to DNaseI, and the band 4.4 from Baetica ustalata was the most resistant of the non-centromeric bands. Similar results were obtained during meiosis, but increased accessibility to DNAseI was observed compared to mitosis. DNA methylation in the non-centromeric band 4.4 of B. ustulata could be responsible for its differential digestion with respect to the remaining intercalar heterochromatin. Facultatively heterochromatic regions (X chromosomes) were found to exhibit a differential response to DNaseI attack from mitosis to meiosis. While they behaved as cuchromatin during mitosis, they were the most resistant together with centromeric heterochromatin regions, during metaphase I and II. The different responses to digestion of the X chromosome and X-derived regions between somatic and meiotic divisions are probably a consequence of the changes in the organization of this chromosome during the facultative heterochromatinization process.     

Experimental condensation inhibition in constitutive and facultative heterochromatin of mammalian chromosomes

What drives the dramatic changes in chromosome structure during the cell cycle is one of the oldest questions in genetics. During mitosis, all chromosomes become highly condensed and, as the cell completes mitosis, most of the chromatin decondenses again. Only chromosome regions containing constitutive or facultative heterochromatin remain in a more condensed state throughout interphase. One approach to understanding chromosome condensation is to experimentally induce condensation defects. 5-Azacytidine (5-aza-C) and 5-azadeoxycytidine (5-aza-dC) drastically inhibit condensation in mammalian constitutive heterochromatin, in particular in human chromosomes 1, 9, 15, 16, and Y, as well as in facultative heterochromatin (inactive X chromosome), when incorporated into late-replicating DNA during the last hours of cell culture. The decondensing effects of 5-aza-C analogs, which do not interfere with normal base pairing in substituted duplex DNA, have been correlated with global DNA hypomethylation. In contrast, decondensation of constitutive heterochromatin by incorporation of 5-iododeoxyuridine (IdU) or other non-demethylating base analogs, or binding of AT-specific DNA ligands, such as berenil and Hoechst 33258, may reflect an altered steric configuration of substituted or minor-groove-bound duplex DNA. Consequently, these compounds exert relatively specific effects on certain subsets of AT-rich constitutive heterochromatin, i.e. IdU on human chromosome 9, berenil on human Y, and Hoechst 33258 on mouse chromosomes, which provide high local concentrations of IdU incorporation sites or DNA-ligand-binding sites. None of these non-demethylating compounds affect the inactive X chromosome condensation. Structural features of chromosomes are largely determined by chromosome-associated proteins. In this light, we propose that both DNA hypomethylation and steric alterations in chromosomal DNA may interfere with the binding of specific proteins or multi-protein complexes that are required for chromosome condensation. The association between chromosome condensation defects, genomic instability, and epigenetic reprogramming is discussed. Chromosome condensation may represent a key ancestral mechanism for modulating chromatin structure that has since been realloted to other nuclear processes.     

Chromatin decondensation and DNA synthesis in human sperm activated in vitro by using Xenopus laevis egg extracts

An in vitro sperm activation system was used to study nuclear swelling-chromatin decondensation and DNA synthesis; processes that occur in vivo following fertilization. Lysolecithin-permeabilized human sperm were incubated in Xenopus laevis egg extract and examined by using phase-contrast light microscopy, electron microscopy, and autoradiography. During a 3-hour incubation, the activated sperm nuclear chromatin underwent a decondensation-recondensation cycle during which DNA was synthesized. This also occurred when egg extract was given a 3-hour preincubation before the addition of the sperm, suggesting that the factor(s) required for initiating the decondensation-recondensation cycle is associated with the sperm. Because both nuclear swelling and DNA synthesis were found to be reproducible and quantifiable, we studied the effect of various agents on the two processes, characterizing the critical component(s) in the egg extract that induces these events. EGTA was found to have no effect on the induced nuclear swelling or DNA synthesis that occurs in the activated sperm. Freezing and thawing the extract or treating the extract with aphidicolin also had no effect on subsequent nuclear swelling; however, the DNA synthesis activity was blocked. Sperm incubated in extract treated with alkaline phosphatase (AP) had both nuclear swelling and DNA synthesis blocked. However, if the sperm were pretreated with DTT, and then incubated with the AP-treated extract, only the DNA synthesis activity of the extract was blocked. When the extract was treated with serine protease inhibitors (PMSF, soybean trypsin inhibitor, or alpha-2-macroglobulin), nuclear swelling occurred; however, DNA synthesis was blocked. These data suggest that phosphoproteins are involved in one or more of the activation events and that a serine protease(s) is involved in the synthesis of DNA.     

Downregulation of Wnt signaling is a trigger for formation of facultative heterochromatin and onset of cell senescence in primary human cells

Cellular senescence is an irreversible proliferation arrest of primary cells and an important tumor suppression process. Senescence is often characterized by domains of facultative heterochromatin, called senescence-associated heterochromatin foci (SAHF), which repress expression of proliferation-promoting genes. Formation of SAHF is driven by a complex of histone chaperones, HIRA and ASF1a, and depends upon prior localization of HIRA to PML nuclear bodies. However, how the SAHF assembly pathway is activated in senescent cells is not known. Here we show that expression of the canonical Wnt2 ligand and downstream canonical Wnt signals are repressed in senescent human cells. Repression of Wnt2 occurs early in senescence and independently of the pRB and p53 tumor suppressor proteins and drives relocalization of HIRA to PML bodies, formation of SAHF and senescence, likely through GSK3beta-mediated phosphorylation of HIRA. These results have major implications for our understanding of both Wnt signaling and senescence in tissue homeostasis and cancer progression.     

Chromatin core particle obtained by selective cleavage of histones H3 and H4 by clostripain

A new chromatin core particle characterized by a half-proteolyzed octamer is obtained by controlled digestion of the native core particle by clostripain. The proteolyzed histones correspond to four polypeptide fragments which are tentatively assigned to H2A[4-129], H2B[1-125], H3[27-135] and H4[18-102] on the basis of electrophoretic evidence and the known specificity of clostripain for arginyl residues. Despite the loss of the N-terminal regions of histones H3 and H4, the partially proteolyzed core particle retains the structural conformation of the native one as shown by circular dichroism. As expected, this half-proteolyzed core particle presents an intermediate accessibility to polycations, such as spermidine, in comparison with that observed with the native core particle and a fully proteolyzed core particle. The latter includes the polypeptide fragments H2A[12-129], H2B[21-125], H3[27-135] and H4[20-102].     

Combinations of two synthetic adjuvants: synergistic effects of a surfactant and a polyanion on the humoral immune response

Synergistic effects of two synthetic adjuvants, dimethyldioctadecylammonium bromide (DDA) and dextran sulfate (DXS) on the humoral response to sheep red blood cells (SRBC) were investigated. Mice received intraperitoneal (ip) injections of adjuvant and antigen simultaneously. The number of plaque-forming cells (PFC) in the spleen were determined 5 days later and circulating anti-SRBC antibodies were measured till 16 weeks after immunization. Although combinations of DDA and DXS were very effective in enhancing the PFC response to both moderate (2 X 10(7] and low (2 X 10(6] doses of SRBC, synergy between the adjuvants was only observed at the low dose of SRBC. Optimal augmentation of the primary response to the low antigen dose was evoked by the combination of the highest dose tested of either adjuvant (1 mumol DDA and 1 nmol DXS) resulting in a 560-fold increase of the number of PFC in the spleen as compared to controls. Even combinations of relatively small amounts of both adjuvants were very effective in augmenting the response to SRBC. Mice receiving half the amounts of both adjuvants with 2 X 10(6) SRBC displayed increased numbers of PFC in the spleen at Day 5 as well as increased titers of total anti-SRBC antibodies at Week 1 and Week 2 and 2-mercaptoethanol-resistant antibodies from Week 4 till Week 16 as compared to the calculated sum of responses in mice which received either DDA (0.05 mumol per mouse) or DXS (0.05 nmol per mouse). The mechanism behind the synergy between these adjuvants is discussed and the possibility of discerning adjuvants on their modes of action is suggested.     

A barrier-only boundary element delimits the formation of facultative heterochromatin in Drosophila melanogaster and vertebrates

Formation of facultative heterochromatin at specific genomic loci is fundamentally important in defining cellular properties such as differentiation potential and responsiveness to developmental, physiological, and environmental stimuli. By the nature of their formation, heterochromatin and repressive histone marks propagate until the chain reaction is broken. While certain active promoters can block propagation of heterochromatin, there are also specialized DNA elements, referred to as chromatin barriers, that serve to demarcate the boundary of facultative heterochromatin formation. In this study, we identified a chromatin barrier that specifically limits the formation of repressive chromatin to a distal enhancer region so that repressive histone modifications cannot reach the promoter and promoter-proximal enhancer regions of reaper. Unlike all of the known boundary elements identified for Drosophila melanogaster, this IRER (irradiation-responsive enhancer region) left barrier (ILB) does not exhibit enhancer-blocking activity. Not only has the ILB been conserved in different Drosophila species, it can also function as an effective chromatin barrier in vertebrate cells. This suggests that the mechanism by which it functions to spatially restrict the formation of repressive chromatin marked by trimethylated H3K27 has also been conserved widely during evolution.     

Calcium-dependent activation of human neutrophils by a synthetic ionophore

Synthetic block copolymers composed of polyoxyethylene and poly-oxypropylene have been demonstrated to possess ionophore activity selective for monovalent cations and to cause histamine release from mouse mast cells and human basophils. We now report calcium-dependent release of granule contents from human neutrophils by the most active of these agents, TI30R2. At a concentration of 100 micrograms/ml (12.5 microM), net lysozyme release ranged from 17-40% after 30 minutes incubation at 37 degrees. Lysozyme release was dose-dependent over stimulus concentrations of 5-50 micrograms/ml (0.625-6.25 microM). Release was dependent upon the presence of extracellular calcium. T130R2 did not induce the release of superoxide anions over 30 minutes of incubation. As T130R2 induces sodium influx into cells, it is likely that a depolarizing influx of sodium ions in the presence of extracellular calcium constitutes a sufficient signal for granule release but not superoxide production by human neutrophils.