Ontogenetic trajectories of chimpanzee social play: similarities with humans

Social play, a widespread phenomenon in mammals, is a multifunctional behavior, which can have many different roles according to species, sex, age, relationship quality between playmates, group membership, context, and habitat. Play joins and cuts across a variety of disciplines leading directly to inquiries relating to individual developmental changes and species adaptation, thus the importance of comparative studies appears evident. Here, we aim at proposing a possible ontogenetic pathway of chimpanzee play (Pan troglodytes) and contrast our data with those of human play. Chimpanzee play shows a number of changes from infancy to juvenility. Particularly, solitary and social play follows different developmental trajectories. While solitary play peaks in infancy, social play does not show any quantitative variation between infancy and juvenility but shows a strong qualitative variation in complexity, asymmetry, and playmate choice. Like laughter in humans, the playful expressions in chimpanzees (at the different age phases) seem to have a role in advertising cooperative dispositions and intentions thus increasing the likelihood of engaging in solid social relationships. In conclusion, in chimpanzees, as in humans, both play behavior and the signals that accompany play serve multiple functions according to the different age phases.     

Inflammatory cytokine expression is associated with chikungunya virus resolution and symptom severity

The Chikungunya virus infection zones have now quickly spread from Africa to parts of Asia, North America and Europe. Originally thought to trigger a disease of only mild symptoms, recently Chikungunya virus caused large-scale fatalities and widespread economic loss that was linked to recent virus genetic mutation and evolution. Due to the paucity of information on Chikungunya immunological progression, we investigated the serum levels of 13 cytokines/chemokines during the acute phase of Chikungunya disease and 6- and 12-month post-infection follow-up from patients of the Italian outbreak. We found that CXCL9/MIG, CCL2/MCP-1, IL-6 and CXCL10/IP-10 were significantly raised in the acute phase compared to follow-up samples. Furthermore, IL-1β, TNF-α, Il-12, IL-10, IFN-γ and IL-5 had low initial acute phase levels that significantly increased at later time points. Analysis of symptom severity showed association with CXCL9/MIG, CXCL10/IP-10 and IgG levels. These data give insight into Chikungunya disease establishment and subsequent convalescence, which is imperative to the treatment and containment of this quickly evolving and frequently re-emerging disease.     

Major Tegument Protein pp65 of Human Cytomegalovirus Is Required for the Incorporation of pUL69 and pUL97 into the Virus Particle and for Viral Growth in Macrophages

The tegument protein pp65 of human cytomegalovirus (HCMV) represents the major component of mature virus particles. Nevertheless, deletion of pp65 has been shown to have no effects on virus replication and morphogenesis in fibroblasts in vitro. We have studied the HCMV virion composition in the absence of pp65 and viral growth of a pp65 stop mutant in different cell types, including monocyte-derived macrophages. Two stop codons at amino acids 11 and 12 of pp65 were introduced by bacterial artificial chromosome mutagenesis into the endotheliotropic strain TB40/E. Clear changes of the tegument composition could be observed in purified mutant virus particles, where the amount of tegument protein pUL25 was drastically reduced. In addition, pUL69 and the virally encoded protein kinase UL97 were undetectable in the pp65 stop mutant. Expression of pUL69 in infected cells was unaltered while pUL25 accumulated in the absence of pp65, thus demonstrating that only incorporation into virus particles is dependent on pp65. Coimmunoprecipitation experiments using lysates of infected cells revealed an interaction between pUL69 and pp65. This interaction was verified in pull-down experiments using transfected cells, which showed that pp65 and pUL69 do not require the presence of other viral proteins for their interaction. We conclude that pp65 is required for the incorporation of other viral proteins into the virus particle and thus is involved in the protein-protein interaction network leading to normal tegument formation. When studying growth kinetics of the pp65 stop mutant in different cell types, we found a severe impairment of viral growth in monocyte-derived macrophages, showing for the first time a strong cell-specific role of pp65 in viral growth.Human cytomegalovirus (HCMV), a member of the Betaherpesvirinae subfamily, is a threatening pathogen for immunocompromised patients, such as transplant recipients, AIDS patients, and conatally infected infants (15). HCMV infection of individuals with a compromised immune system causes considerable morbidity and mortality after primary infection or reactivation from latency.Mature HCMV virions comprise four distinct structures: core, capsid, tegument, and envelope. The nucleocapsid consists of the core containing the approximately 240-kb linear double-stranded DNA genome, which is embedded in an icosahedral capsid. Between the envelope, a cellularly derived lipid membrane containing viral glycoproteins, and the nucleocapsid, a protein layer called tegument (26), is located. The tegument of HCMV is composed of at least 25 viral proteins. Tegument proteins have been proposed to act in several processes, such as immune evasion (reviewed in reference 30), release of viral DNA into the nucleus (6), and initiation and regulation of the viral replication cycle (3, 7, 16, 31, 41). However, for many of the tegument proteins, the morphogenetic or regulatory functions are unknown. An increasing number of host cell proteins, e.g., cytoskeletal proteins such as α- and β-actin, have also been detected in HCMV particles (4, 39). In addition to infectious virions, HCMV-infected cells generate two types of aberrant particles: noninfectious enveloped particles (NIEPs) and dense bodies (DBs) (18). The protein composition and morphology of NIEPs are nearly identical to those of mature virions; however, their lack of an electron-dense DNA-containing core allows discrimination of NIEPs from infectious virions by electron microscopy (18). DBs are fusion-competent enveloped particles lacking a nucleocapsid. They are composed primarily of the tegument protein pp65 (ppUL83) (4, 18, 39).For a long time, the herpesvirus tegument has been considered to be unstructured. Data mainly from alphaherpesviruses indicate that morphogenesis depends on an intricate network of tegument protein-protein interactions (reviewed in reference 23). Interestingly, for most tegument proteins of alphaherpesviruses relevant for primary tegumentation and envelopment, homologues have been found in HCMV, whereas there is much less homology between the proteins involved in secondary tegumentation and envelopment. Cryoelectron microscopic analyses of herpesvirus particles, including HCMV, provide evidence for an icosahedral symmetry and protein-protein complexes forming substructures, at least for the innermost part of the tegument (11).Remarkably, the most abundant tegument protein and major constituent of extracellular virions, pp65, is not essential for virus replication in fibroblasts in vitro. Deletion of pp65 in HCMV strain AD169 causes a complete loss of DB formation, while production of infectious virus in fibroblasts appears to be unaffected (34). Wild-type virus particle-associated pp65 is rapidly translocated to the nuclei of infected cells after penetration of the incoming virus (4, 33). Newly synthesized pp65 accumulates in both nucleus and cytoplasm at later stages of infection. In all, the precise function of pp65 during infection is not clear.During HCMV infection, pp65 is a major antigen for cellular immune responses. Besides its function as a structural component of the virus, pp65 seems to be involved in manipulation of the host''s immune system. Recent reports provide evidence that pp65 is involved in subverting the host immune response by mediating a decreased expression of major histocompatibility complex class II molecules (27). Microarray studies demonstrating an increase in the cellular antiviral cytokine response during infection with a pp65 deletion mutant suggested that pp65 is involved in downmodulation of beta interferon and of a number of chemokines (1, 8). However, most recent work demonstrates that not pp65 but the immediate-early 2 (IE2) gene product IE86 is responsible for the block of beta interferon induction during HCMV infection and that IE86 expression is delayed in the pp65 deletion mutant due to a decreased expression of pp71 (36). It has also been shown that pp65 can directly interact with NKp30, the natural killer (NK) cell-activating receptor, and that this interaction leads to a general inhibition of the killing ability of NK cells (2). Because of the requirement of cell-free pp65, the relevance of this interaction during HCMV infection in vivo is not entirely clear and needs to be investigated in more detail.Another feature of pp65 is the ability to interact with cellular as well as viral proteins. The interaction of pp65 with the cellular Polo-like kinase 1 (Plk1) results in an incorporation of Plk1 into virus particles. Plk1 is able to phosphorylate pp65 in vitro (14). Recently, it has been shown that pp65 interacts directly with the viral protein kinase pUL97 (20). pUL97 seems to be required for normal intranuclear distribution of pp65. Inhibition of the pUL97 kinase activity with maribavir or mutation of an essential amino acid in the kinase domain results in accumulation of pp65 in characteristic inclusions in the nuclei of infected as well as transfected cells (28).To extend our knowledge about pp65 and its function, we investigated the composition of endotheliotropic HCMV particles in the absence of the most abundant tegument protein, pp65. We hypothesized that other viral or cellular proteins might compensate for the lack of pp65 in virus particles, as described for tegument mutants of pseudorabies virus (25). The results presented here, using a pp65 stop codon mutant of the endotheliotropic HCMV strain TB40/E, demonstrate that in contrast to our hypothesis, incorporation of at least three other HCMV tegument proteins, pUL25, pUL69, and pUL97, is severely impaired when pp65 is lacking. For pUL69, a direct interaction with pp65 could be shown in infected as well as transfected cells. These results show that pp65 interacts with other viral tegument proteins during infection, which in turn is important for the incorporation of these proteins into mature virus particles. Finally, for the first time, we could show a cell-specific biological relevance of pp65 for growth of HCMV in monocyte-derived macrophages (MDM).     

Influence of milk-feeding type and genetic risk of developing coeliac disease on intestinal microbiota of infants: the PROFICEL study

Interactions between environmental factors and predisposing genes could be involved in the development of coeliac disease (CD). This study has assessed whether milk-feeding type and HLA-genotype influence the intestinal microbiota composition of infants with a family history of CD. The study included 164 healthy newborns, with at least one first-degree relative with CD, classified according to their HLA-DQ genotype by PCR-SSP DQB1 and DQA1 typing. Faecal microbiota was analysed by quantitative PCR at 7 days, and at 1 and 4 months of age. Significant interactions between milk-feeding type and HLA-DQ genotype on bacterial numbers were not detected by applying a linear mixed-model analysis for repeated measures. In the whole population, breast-feeding promoted colonization of C. leptum group, B. longum and B. breve, while formula-feeding promoted that of Bacteroides fragilis group, C. coccoides-E. rectale group, E. coli and B. lactis. Moreover, increased numbers of B. fragilis group and Staphylococcus spp., and reduced numbers of Bifidobacterium spp. and B. longum were detected in infants with increased genetic risk of developing CD. Analyses within subgroups of either breast-fed or formula-fed infants indicated that in both cases increased risk of CD was associated with lower numbers of B. longum and/or Bifidobacterium spp. In addition, in breast-fed infants the increased genetic risk of developing CD was associated with increased C. leptum group numbers, while in formula-fed infants it was associated with increased Staphylococcus and B. fragilis group numbers. Overall, milk-feeding type in conjunction with HLA-DQ genotype play a role in establishing infants' gut microbiota; moreover, breast-feeding reduced the genotype-related differences in microbiota composition, which could partly explain the protective role attributed to breast milk in this disorder.     

Matrix metalloproteinases in plants: a brief overview

Matrix metalloproteinases (MMPs) are a family of zinc-dependent endopeptidases belonging to the metzincin clan. MMPs have been characterized in detail in mammals, and they have been shown to play key roles in many physiological and pathological processes. Plant MMP-like proteases exist, but relatively few have been characterized. It has been speculated that plant MMPs are involved in remodeling of the plant extracellular matrix during growth, development and stress response. However, the precise functions and physiological substrates in higher plants remain to be determined. In this brief overview, we summarize the current knowledge of MMPs in higher plants and algae.     

Genetic disassociation of autoimmunity and resistance to costimulation blockade-induced transplantation tolerance in nonobese diabetic mice

Curing type 1 diabetes by islet transplantation requires overcoming both allorejection and recurrent autoimmunity. This has been achieved with systemic immunosuppression, but tolerance induction would be preferable. Most islet allotransplant tolerance induction protocols have been tested in nonobese diabetic (NOD) mice, and most have failed. Failure has been attributed to the underlying autoimmunity, assuming that autoimmunity and resistance to transplantation tolerance have a common basis. Out of concern that NOD biology could be misleading in this regard, we tested the hypothesis that autoimmunity and resistance to transplantation tolerance in NOD mice are distinct phenotypes. Unexpectedly, we observed that (NOD x C57BL/6)F(1) mice, which have no diabetes, nonetheless resist prolongation of skin allografts by costimulation blockade. Further analyses revealed that the F(1) mice shared the dendritic cell maturation defects and abnormal CD4(+) T cell responses of the NOD but had lost its defects in macrophage maturation and NK cell activity. We conclude that resistance to allograft tolerance induction in the NOD mouse is not a direct consequence of overt autoimmunity and that autoimmunity and resistance to costimulation blockade-induced transplantation tolerance phenotypes in NOD mice can be dissociated genetically. The outcomes of tolerance induction protocols tested in NOD mice may not accurately predict outcomes in human subjects.     

Cytogenetic biomonitoring of workers from laboratories of clinical analyses occupationally exposed to chemicals

A cytogenetic monitoring study was carried out on a group of workers in clinical analysis laboratories to investigate the risk of occupational exposure to chronic low levels of chemicals.Thirty-four clinical laboratories have been involved in the study. In these laboratories, toxicants and analytical procedures utilized have been characterized. The individual occupational exposure of workers was assessed by use of a questionnaire concerning the chemical substances utilized. About 300 different chemicals have been identified.Cytogenetic analyses (chromosomal aberration and micronucleus tests) were carried out on a strictly selected group of 50 workers enrolled from these laboratories and compared to 53 controls (healthy blood donors) matched for gender and age.The exposed group shows a significantly higher frequency of genetic damage than the control group. Both chromatid and chromosome aberration frequencies in workers appear significantly higher than in controls. Similarly, comparison between micronucleated cells rates of exposed and unexposed groups show significantly higher frequencies of binucleated cells with micronucleus (BNMN) and of total micronuclei (MN tot) in workers than in controls.     

Intracellular proton mobility and buffering power in cardiac ventricular myocytes from rat,rabbit, and guinea pig

Intracellular pH (pHi) is an important modulator of cardiac function. The spatial regulation of pH within the cytoplasm depends, in part, on intracellular H+ (Hi+) mobility. The apparent diffusion coefficient for Hi+, DHapp, was estimated in single ventricular myocytes isolated from the rat, guinea pig, and rabbit. DHapp was derived by best-fitting predictions of a two-dimensional model of H+ diffusion to the local rise of intracellular [H+], recorded confocally (ratiometric seminaphthorhodafluor fluorescence) downstream from an acid-filled, whole cell patch pipette. Under CO2/HCO3--free conditions, DHapp was similar in all three species (mean values: 8-12.5 x 10-7 cm2/s) and was over 200-fold lower than that for H+ in water. In guinea pig myocytes, DHapp was increased 2.5-fold in the presence of CO2/HCO3- buffer, in agreement with previous observations in rabbit myocytes. Hi+ mobility is therefore low in cardiac cells, a feature that may predispose them to the generation of pHi gradients in response to sarcolemmal acid/base transport or local cytoplasmic acid production. Low Hi+ mobility most likely results from H+ shuttling among cytoplasmic mobile and fixed buffers. This hypothesis was explored by comparing the pHi dependence of intrinsic, intracellular buffering capacity, measured for all three species, and subdividing buffering into mobile and fixed fractions. The proportion of buffer that is mobile will be the main determinant of DHapp. At a given pHi, this proportion appeared to be similar in all three species, consistent with a common value for DHapp. Over the pHi range of 6.0-8.0, the proportion is expected to change, predicting that DHapp may display some pHi sensitivity.     

Reuse of microbially treated olive mill wastewater as fertiliser for wheat (Triticum durum Desf.)

Free cells of Aspergillus niger were grown on olive mill wastewater (OMW) supplemented with rock phosphate (RP) in an air-lift bioreactor in batch and repeated-batch processes. The fungus grew well and reduced the chemical oxygen demand of the waste by 35% and 64% in the batch and repeated-batch (fourth batch) processes, respectively. Total sugar content was consistently reduced (ca. 60%) in both processes while reduction of total phenols was minimal. RP was solubilised and maximum soluble P was 0.63 and 0.75 gl(-1) in the batch and repeated-batch (third batch), respectively. Several types of OMW+/-RP, microbially-treated or not, were tested in a greenhouse for their fertilising ability on a soil-wheat (Triticum durum Desf.) model system. Beneficial effects were highest using OMW treated by the repeated-batch process. The treated plants showed an increase in seed biomass, spike number, and kernel weight. Harvest index was highest (0.49+/-0.04) after treatment with OMW from the repeated-batch process.     

Monitoring for human cytomegalovirus infection in solid organ transplant recipients through antigenemia and glycoprotein N (gN) variants: evidence of correlation and potential prognostic value of gN genotypes

Human cytomegalovirus (HCMV) ORF UL73 encodes the envelope glycoprotein gpUL73-gN, which shows seven genotypes (gN-1, gN-2, gN-3a, gN-3b, gN-4a, gN-4b, gN-4c). The goal of this study was to determine retrospectively the distribution of gN variants in solid organ transplant recipients with HCMV infection and to establish an association with parameters important for monitoring post-transplantation clinical course during a follow-up of up to 2 years. Peripheral blood leukocytes from 40 solid organ transplant recipients were analysed for pp65-antigen by immunofluorescence and gN genotyped by sequencing or RFLP analysis. A correlation between gN genotypes and antigenemia peak was found, showing a highly significant difference between gN-1 and gN-4b variants (P<0.005). In particular, gN-1 seems to be associated with patients developing low level antigenemia (<50 pp65-positive cells/2 x 10(5) PBLs; PPV = 90%), whereas gN-4b predicts significantly higher values (>50 pp65-positive cells/2 x 10(5) PBLs; PPV = 80%). Furthermore, the onset of positive antigenemia is significantly earlier in patients infected with a gN-4b strain, compared with those infected by a gN-1 variant. Reported data further support a role for gN genotypes in HCMV pathogenesis. gN-1 and gN-4b show a significantly different virulence and could serve as early predictors for the progression of HCMV infection in transplant patients.