Production of gamma interferon by human T and null cells and its regulation by macrophages

Human mononuclear subpopulations were tested for the capacity to produce interferon after mitogenic stimulation with protein A from Staphylococcus aureus. Mononuclear cells were separated into highly enriched macrophage, T-, B-, and null-cell subpopulations by Sephadex G-10 adherence, anti-human IgG F(ab′) two-column chromatography, and rosetting with sheep erythrocytes. Interferon (IFN) production was observed in both T- and null-cell preparations, but not in macrophage or B-cell preparations. Physicochemical and antigenic characterization of IFN from T- and null-cell preparations showed that both mononuclear subpopulations produced gamma IFN (IFNγ). Regulatory studies showed that IFNγ production was differentially regulated by macrophages. Macrophage addition to T lymphocytes augmented both cellular proliferation and IFNγ production, whereas macrophage addition to null cells suppressed IFNγ production and had no effect on the minimal proliferative response observed for these cells.     

Plk1 Phosphorylation of PTEN Causes a Tumor-Promoting Metabolic State

One outcome of activation of the phosphatidylinositol 3-kinase (PI3K) pathway is increased aerobic glycolysis, but the upstream signaling events that regulate the PI3K pathway, and thus the Warburg effect, are elusive. Increasing evidence suggests that Plk1, a cell cycle regulator, is also involved in cellular events in addition to mitosis. To test whether Plk1 contributes to activation of the PI3K pathway, and thus aerobic glycolysis, we examined potential targets of Plk1 and identified PTEN as a Plk1 substrate. We hypothesize that Plk1 phosphorylation of PTEN leads to its inactivation, activation of the PI3K pathway, and the Warburg effect. Our data show that overexpression of Plk1 leads to activation of the PI3K pathway and enhanced aerobic glycolysis. In contrast, inhibition of Plk1 causes markedly reduced glucose metabolism in mice. Mechanistically, we show that Plk1 phosphorylation of PTEN and Nedd4-1, an E3 ubiquitin ligase of PTEN, results in PTEN inactivation. Finally, we show that Plk1 phosphorylation of PTEN promotes tumorigenesis in both its phosphatase-dependent and -independent pathways, revealing potentially new drug targets to arrest tumor cell growth.     

In senescence,age‐associated B cells secrete TNFα and inhibit survival of B‐cell precursors*

Aged mice exhibit ~ 5–10‐fold increases in an ordinarily minor CD21/35^? CD23^? mature B‐cell subset termed age‐associated B cells (ABCs). ABCs from old, but not young, mice induce apoptosis in pro‐B cells directly through secretion of TNFα. In addition, aged ABCs, via TNFα, stimulate bone marrow cells to suppress pro‐B‐cell growth. ABC effects can be prevented by the anti‐inflammatory cytokine IL‐10. Notably, CD21/35⁺ CD23⁺ follicular (FO) splenic and FO‐like recirculating bone marrow B cells in both young and aged mice contain a subpopulation that produces IL‐10. Unlike young adult FO B cells, old FO B cells also produce TNFα; however, secretion of IL‐10 within this B‐cell population ameliorates the TNFα‐mediated effects on B‐cell precursors. Loss of B‐cell precursors in the bone marrow of old mice in vivo was significantly associated with increased ABC relative to recirculating FO‐like B cells. Adoptive transfer of aged ABC into RAG‐2 KO recipients resulted in significant losses of pro‐B cells within the bone marrow. These results suggest that alterations in B‐cell composition during old age, in particular, the increase in ABC within the B‐cell compartments, contribute to a pro‐inflammatory environment within the bone marrow. This provides a mechanism of inappropriate B‐cell ‘feedback’ that promotes down‐regulation of B lymphopoiesis in old age.     

A preliminary method for estimating the age of brown kiwi (Apteryx mantelli) embryos

Morphological features of a collection of unknown-age wild kiwi (Apteryx mantelli) embryos from early development to point of hatch are described. Using these features, we assign developmental stages to each embryo and compare the progress of development to similar-staged ostrich (Struthio camelus) and chicken (Gallus gallus) embryos. Two ageing schemes for the kiwi embryos are developed by comparing measurements of their hindlimb segments, bills and crown–rump lengths with those of ostrich and chicken embryos at various stages of development. One of the 20 kiwi embryos was of known age. Both the ostrich model and the chicken model gave identical predictions for the marker and four other embryos. Developmental timing of some features differed between all three species, most markedly in the bill, with growth in the kiwi bill being relatively faster to achieve its larger relative and absolute size at hatch.     

Effect of temperature on postillumination isoprene emission in oak and poplar

Isoprene emission from broadleaf trees is highly temperature dependent, accounts for much of the hydrocarbon emission from plants, and has a profound effect on atmospheric chemistry. We studied the temperature response of postillumination isoprene emission in oak (Quercus robur) and poplar (Populus deltoides) leaves in order to understand the regulation of isoprene emission. Upon darkening a leaf, isoprene emission fell nearly to zero but then increased for several minutes before falling back to nearly zero. Time of appearance of this burst of isoprene was highly temperature dependent, occurring sooner at higher temperatures. We hypothesize that this burst represents an intermediate pool of metabolites, probably early metabolites in the methylerythritol 4-phosphate pathway, accumulated upstream of dimethylallyl diphosphate (DMADP). The amount of this early metabolite(s) averaged 2.9 times the amount of plastidic DMADP. DMADP increased with temperature up to 35°C before starting to decrease; in contrast, the isoprene synthase rate constant increased up to 40°C, the highest temperature at which it could be assessed. During a rapid temperature switch from 30°C to 40°C, isoprene emission increased transiently. It was found that an increase in isoprene synthase activity is primarily responsible for this transient increase in emission levels, while DMADP level stayed constant during the switch. One hour after switching to 40°C, the amount of DMADP fell but the rate constant for isoprene synthase remained constant, indicating that the high temperature falloff in isoprene emission results from a reduction in the supply of DMADP rather than from changes in isoprene synthase activity.     

A potent and selective indole N-type calcium channel (Ca(v)2.2) blocker for the treatment of pain

N-type calcium channels (Ca_v2.2) have been shown to play a critical role in pain. A series of low molecular weight 2-aryl indoles were identified as potent Ca_v2.2 blockers with good in vitro and in vivo potency.     

A hitchhikers guide to the Galápagos: co-phylogeography of Galápagos mockingbirds and their parasites

Background

Parasites are evolutionary hitchhikers whose phylogenies often track the evolutionary history of their hosts. Incongruence in the evolutionary history of closely associated lineages can be explained through a variety of possible events including host switching and host independent speciation. However, in recently diverged lineages stochastic population processes, such as retention of ancestral polymorphism or secondary contact, can also explain discordant genealogies, even in fully co-speciating taxa. The relatively simple biogeographic arrangement of the Galápagos archipelago, compared with mainland biomes, provides a framework to identify stochastic and evolutionary informative components of genealogic data in these recently diverged organisms.

Results

Mitochondrial DNA sequences were obtained for four species of Galápagos mockingbirds and three sympatric species of ectoparasites - two louse and one mite species. These data were complemented with nuclear EF1α sequences in selected samples of parasites and with information from microsatellite loci in the mockingbirds. Mitochondrial sequence data revealed differences in population genetic diversity between all taxa and varying degrees of topological congruence between host and parasite lineages. A very low level of genetic variability and lack of congruence was found in one of the louse parasites, which was excluded from subsequent joint analysis of mitochondrial data. The reconciled multi-species tree obtained from the analysis is congruent with both the nuclear data and the geological history of the islands.

Conclusions

The gene genealogies of Galápagos mockingbirds and two of their ectoparasites show strong phylogeographic correlations, with instances of incongruence mostly explained by ancestral genetic polymorphism. A third parasite genealogy shows low levels of genetic diversity and little evidence of co-phylogeny with their hosts. These differences can mostly be explained by variation in life-history characteristics, primarily host specificity and dispersal capabilities. We show that pooling genetic data from organisms living in close ecological association reveals a more accurate phylogeographic history for these taxa. Our results have implications for the conservation and taxonomy of Galápagos mockingbirds and their parasites.     

Centrosomal localization of cyclins E and A: Structural similarities and functional differences

Recent identification of the modular CLS motifs responsible for cyclins A and E localization on centrosomes has revealed a tight linkage between the nuclear and centrosomal cycles. These G₁/S cyclins must localize on the centrosome in order for DNA replication to occur in the nucleus, whereas essential DNA replication factors also function on the centrosome to prevent centrosome overduplication. Both events are dependent on the presence of an intact CLS within each cyclin. Here we compare the cyclins A and E CLSs at the structural and functional levels and identify a new cyclin A CLS mutant that disrupts all CLS functions and reduces the affinity of cyclin A for Cdk2. Analysis of interactions of the CLS motif within the cyclin molecules highlights the importance of the cyclin CBOX1 region for Cdk2 binding.Key words: cyclin A, cyclin E, Cdk2, centrosome, CLS, PSTAIRE, DNA synthesis