Relationship Between Non-Hodgkin's Lymphoma and Blood Levels of Epstein-Barr Virus in Children in North-Western Tanzania: A Case Control Study.

Non-Hodgkin's Lymphomas (NHL) are common in African children, with endemic Burkitt's lymphoma (BL) being the most common subtype. While the role of Epstein-Barr Virus (EBV) in endemic BL is known, no data are available about clinical presentations of NHL subtypes and their relationship to Human Immunodeficiency Virus (HIV) infection and Epstein Barr Virus (EBV) load in peripheral blood of children in north-western, Tanzania. A matched case control study of NHL subtypes was performed in children under 15 years of age and their respective controls admitted to Bugando Medical Centre, Sengerema and Shirati district designated hospitals in north-western, Tanzania, between September 2010 and April 2011. Peripheral blood samples were collected on Whatman 903 filter papers and EBV DNA levels were estimated by multiplex real-time PCR. Clinical and laboratory data were collected using a structured data collection tool and analysed using chi-square, Fisher and Wilcoxon rank sum tests where appropriate. The association between NHL and detection of EBV in peripheral blood was assessed using conditional logistic regression model and presented as odds ratios (OR) and 95% confidence intervals (CI). A total of 35 NHL cases and 70 controls matched for age and sex were enrolled. Of NHLs, 32 had BL with equal distribution between jaw and abdominal tumour, 2 had large B cell lymphoma (DLBCL) and 1 had NHL-not otherwise specified (NHL-NOS). Central nervous system (CNS) presentation occurred only in 1 BL patient; 19 NHLs had stage I and II of disease. Only 1 NHL was found to be HIV-seropositive. Twenty-one of 35 (60%) NHL and 21 of 70 (30%) controls had detectable EBV in peripheral blood (OR = 4.77, 95% CI 1.71 - 13.33, p = 0.003). In addition, levels of EBV in blood were significantly higher in NHL cases than in controls (p = 0.024). BL is the most common childhood NHL subtype in north-western Tanzania. NHLs are not associated with HIV infection, but are strongly associated with EBV load in peripheral blood. The findings suggest that high levels of EBV in blood might have diagnostic and prognostic relevance in African children

Whole-body regeneration in the colonial tunicate Botrylloides leachii

The colonial marine invertebrate Botrylloides leachii belongs to the Tunicata subphylum, the closest invertebrate relatives to the vertebrate group and the only known class of chordates that can undergo whole-body regeneration (WBR). This dramatic developmental process allows a minute isolated fragment of B. leachii’s vascular system, or a colony excised of all adults, to restore a functional animal in as little as 10 days. In addition to this exceptional regenerative capacity, B. leachii can reproduce both sexually, through a tadpole larval stage, and asexually, through palleal budding. Thus, three alternative developmental strategies lead to the establishment of filter-feeding adults. Consequently, B. leachii is particularly well suited for comparative studies on regeneration and should provide novel insights into regenerative processes in chordates.Here, after a short introduction on regeneration, we overview the biology of B. leachii as well as the current state of knowledge on WBR in this species and in related species of tunicates. Finally, we highlight the possible future directions that research might take in the study of WBR, including thoughts on technological approaches that appear most promising in this context. Overall, we provide a synthesis of the current knowledge on WBR in B. leachii to support research in this chordate species

Common and divergent pathways in alternative developmental processes of ascidians

Colonial ascidians offer opportunities to investigate how developmental events are integrated to generate the animal form, since they can develop similar individuals (oozooids from eggs, blastozooids from pluripotent somatic cells) through very different reproductive processes, i.e. embryogenesis and blastogenesis. Moreover, thanks to their key phylogenetic position, they can help in the understanding of the molecular mechanisms of morphogenesis and their evolution in chordates. We review organogenesis of the ascidian neural complex comparing embryos and buds in terms of topology, developmental mechanisms and terminology. We propose a new interpretation of bud territories, and reconsider nervous system development based on recent results suggesting that ascidians have vertebrate placodal and neural-crest-like cells. Comparing embryonic and blastogenic development in Botryllus schlosseri, we propose that the bud has territories with a placodal potentiality, suggesting that chordate ancestors possessed neurogenic placodes, and that the genetic pathways regulating neurogenic placode formation were co-opted for new developmental processes, such as blastogenesis

RGD-containing molecules induce macropinocytosis in ascidian hyaline amoebocytes

Phagocytes of the compound ascidian Botryllus schlosseri are capable of constitutive macropinocytosis (MP) at sites of membrane ruffling along the leading edge. This gives rise to the formation of initially irregular vesicles which then move to the inside of the cells and acquire a more regular morphology. Both phagocyte spreading and MP are enhanced by the recognition of molecules containing the sequence Arg-Gly-Asp (RGD): this suggests that, as in mammals, integrin activation is involved in the induction of both cell spreading and endocytosis. The occurrence of MP is associated with increased oxygen consumption and a rise in the production of superoxide anion, as indicated by nitroblue tetrazolium reduction, and ATP, as indicated by increased cytochrome oxidase activity. On the whole, our results indicate the conservation of common mechanisms of MP induction throughout the Chordate phylum

Regeneration in Echinoderms and Ascidians

The regenerative potential is expressed to a maximum extent in echinoderms and ascidians. They provide unique and valuable deuterostome models, closely related to vertebrates (man included), for an integrated approach exploring regeneration from tissue repair to asexual cloning. The comparison of results derived from different experimental models of echinoderms and ascidians and employing different approaches, in vivo and in vitro, provides an insight on specificity of regulatory mechanisms and processes governing large-scale pattern formation and information signalling storage between cells and tissues allowing a living system to reliably regenerate and maintain a complex morphology. Since in these animals, regenerative phenomena involve progenitor cells present in the circulating fluids or in the tissues, the crucial questions opened are those related to (1) stemness properties of responsible cells, in terms of origin and derivation (stem cells or dedifferentiated cells) and (2) activities (proliferation and/or migration), plasticity and differentiation potential (derived cellular phenotypes)

Tunicata and Cephalochordata

Tunicata and Cephalochordata, collectively named Protochordata, are filter-feeding marine animals which, as invertebrate members of the phylum Chordata, share with vertebrates the basic chordate characteristics. Tunicata are found at all latitudes and can assume a planktonic or benthic lifestyle. Coloniality is widespread and a larval stage followed by metamorphosis is the rule in the class Ascidiacea. Blooms of pelagic tunicates are quite common in warm seasons: their ecological relevance relies on the key role played by these animals in the alimentary chain of open seas. Cephalochordata are small, fish-like animals living in sandy bottoms, of interest for evolutionary studies

AN UNUSUAL MEMBRANE SYSTEM IN THE OOCYTE OF THE ASCIDIAN BOTRYLLUS-SCHLOSSERI

During vitellogenesis, oocytes of Botryllus schlosseri always exhibit an unusual system scattered in the cytoplasm. It consists of an association between a single fenestrated endoplasmic reticulum cisterna and one or a few smooth vesicles (cisterna vesicle association: CVA) containing a dense core facing the cisterna itself. The latter is smooth and perforated by numerous small pores (about 25 nm in diameter) in the area of association; towards the periphery, it extends into several branches with ribosomes bound to their membranes. In the vesicles, fibrillar material radiates from the dense core and is sometimes organized into a long, dense lamina. The membranes of both cisterna and vesicles appear to be coupled, but are in fact separated by a constant narrow space occupied by short densities. The presence in B. schlosseri of this unusual fenestrated membrane system contrasts with the absence of a typical porous cytoplasmic organelle, the annulate lamellae (ALs), which is widely distributed in female gametes. However, as in other animals, B. schlosseri oocytes possess intranuclear annulate lamellae (IALs) and vesicles. Comparative observations extended to the oocytes of the ascidian Ciona intestinalis have shown that the latter species exhibits typical ALs and IALs, but not the CVA. The morphology of the CVA is analysed here in detail, and similarities and differences with ALs are pointed out. Hypotheses regarding CVA function are discussed in terms of possible relations with ALs