Waterberging op landbouwgronden : effecten op plant- en dierziekten, onkruiden en contaminanten

In deze studie zijn met een quick scan deze effecten van waterberging onderzocht. Het accent ligt daarbij op het regionale watersysteem. Daarvoor is een inventarisatie uitgevoerd van bestaande kennis bij deskundigen en is de literatuur verkend. Het accent in deze studie ligt op die stoffen en organismen die in de melkveehouderij en akkerbouw risicovol zijn. Het blijkt dat er nog niet eerder gericht onderzoek is verricht naar de relatie tussen waterberging en plant- en dierziekten. Kennis over effecten van waterberging op contaminanten is vooral ontleend aan onderzoek in het rivierengebied. Van alle relevante contaminanten (zware metalen, PAK's etc.), plant- en dierziekten en onkruiden is aangegeven door welke omstandigheden ze worden beïnvloed, welke processen er in de bergingsgebieden spelen en wat de effecten zijn op gewassen en ve

Rapid emergence of a virulent PB2 E627K variant during adaptation of highly pathogenic avian influenza H7N7 virus to mice

Background Highly pathogenic avian influenza (HPAI) viruses pose a potential human health threat as they can be transmitted directly from infected poultry to humans. During a large outbreak of HPAI H7N7 virus among poultry in The Netherlands in 2003, bird to human transmission was confirmed in 89 cases, of which one had a fatal outcome. Methods To identify genetic determinants of virulence in a mammalian host, we passaged an avian H7N7/03 outbreak isolate in mouse lungs and evaluated the phenotype of the mouse-adapted variant in animal models and in vitro. Results Three passages in mouse lungs were sufficient to select a variant that was highly virulent in mice. The virus had a MLD50 that was >4.3 logs lower than that of its non-lethal parental virus. Sequence analysis revealed a single mutation at position 627 in PB2, where the glutamic acid was changed to a lysine (E627K). The mouse-adapted virus has this mutation in common with the fatal human case isolate. The virus remained highly pathogenic for chickens after its passage in mice. In ferrets, the mouse-adapted virus induced more severe disease, replicated to higher titers in the lower respiratory tract and spread more efficiently to systemic organs compared with the parental virus. In vitro, the PB2 E627K mutation had a promoting effect on virus propagation in mammalian, but not in avian cells. Conclusions Our results show that the E627K mutation in PB2 alone can be sufficient to convert an HPAI H7N7 virus of low virulence to a variant causing severe disease in mice and ferrets. The rapid emergence of the PB2 E627K mutant during mouse adaptation and its pathogenicity in ferrets emphasize the potential risk of HPAI H7N7 viruses for human health

Protective Efficacy of Newcastle Disease Virus Expressing Soluble Trimeric Hemagglutinin against Highly Pathogenic H5N1 Influenza in Chickens and Mice

Background: Highly pathogenic avian influenza virus (HPAIV) causes a highly contagious often fatal disease in poultry, resulting in significant economic losses in the poultry industry. HPAIV H5N1 also poses a major public health threat as it can be transmitted directly from infected poultry to humans. One effective way to combat avian influenza with pandemic potential is through the vaccination of poultry. Several live vaccines based on attenuated Newcastle disease virus (NDV) that express influenza hemagglutinin (HA) have been developed to protect chickens or mammalian species against HPAIV. However, the zoonotic potential of NDV raises safety concerns regarding the use of live NDV recombinants, as the incorporation of a heterologous attachment protein may result in the generation of NDV with altered tropism and/or pathogenicity. Methodology/Principal Findings: In the present study we generated recombinant NDVs expressing either full length, membrane-anchored HA of the H5 subtype (NDV-H5) or a soluble trimeric form thereof (NDV-sH5 3). A single intramuscular immunization with NDV-sH5 3 or NDV-H5 fully protected chickens against disease after a lethal challenge with H5N1 and reduced levels of virus shedding in tracheal and cloacal swabs. NDV-sH5 3 was less protective than NDV-H5 (50% vs 80% protection) when administered via the respiratory tract. The NDV-sH5 3 was ineffective in mice, regardless of whether administered oculonasally or intramuscularly. In this species, NDV-H5 induced protective immunity against HPAIV H5N1, but only after oculonasal administration, despite the poor H5-specific serum antibody response it elicited. Conclusions/Significance: Although NDV expressing membrane anchored H5 in general provided better protection than its counterpart expressing soluble H5, chickens could be fully protected against a lethal challenge with H5N1 by using the latter NDV vector. This study thus provides proof of concept for the use of recombinant vector vaccines expressing a soluble form of a heterologous viral membrane protein. Such vectors may be advantageous as they preclude the incorporation of heterologous membrane proteins into the viral vector particles

Glycan-dependent immunogenicity of recombinant soluble trimeric hemagglutinin

Recombinant soluble trimeric influenza A virus (IAV) hemagglutinin (sHA3) has proven an effective vaccine antigen against IAV. Here, we investigate to what extent the glycosylation status of the sHA3 glycoprotein affects its immunogenicity. Different glycosylation forms of subtype H5 trimeric HA protein (sH53) were produced by expression in insect cells and different mammalian cells in the absence and presence of inhibitors of N-glycan-modifying enzymes or by enzymatic removal of the oligosaccharides. The following sH53 preparations were evaluated: (i) HA proteins carrying complex glycans produced in HEK293T cells; (ii) HA proteins carrying Man9GlcNAc2 moieties, expressed in HEK293T cells treated with kifunensine; (iii) HA proteins containing Man5GlcNAc2 moieties derived from HEK293S GnTI(-) cells; (iv) insect cell-produced HA proteins carrying paucimannosidic N-glycans; and (v) HEK293S GnTI(-) cell-produced HA proteins treated with endoglycosidase H, thus carrying side chains composed of only a single N-acetylglucosamine each. The different HA glycosylation states were confirmed by comparative electrophoretic analysis and by mass spectrometric analysis of released glycans. The immunogenicity of the HA preparations was studied in chickens and mice. The results demonstrate that HA proteins carrying terminal mannose moieties induce significantly lower hemagglutination inhibition antibody titers than HA proteins carrying complex glycans or single N-acetylglucosamine side chains. However, the glycosylation state of the HA proteins did not affect the breadth of the antibody response as measured by an HA1 antigen microarray. We conclude that the glycosylation state of recombinant antigens is a factor of significant importance when developing glycoprotein-based vaccines, such as recombinant HA proteins

Improve in-depth immunological risk assessment to optimize genetic-compatibility and clinical outcomes in child and adolescent recipients of parental donor kidney transplants: protocol for the INCEPTION study

Background: Parental donor kidney transplantation is the most common treatment option for children and adoles‑ cents with kidney failure. Emerging data from observational studies have reported improved short- and medium-term allograft outcomes in recipients of paternal compared to maternal donors. The INCEPTION study aims to identify potential diferences in immunological compatibility between maternal and paternal donor kidneys and ascertain how this afects kidney allograft outcomes in children and adolescents with kidney failure. Methods: This longitudinal observational study will recruit kidney transplant recipients aged ≤18 years who have received a parental donor kidney transplant across 4 countries (Australia, New Zealand, United Kingdom and the Netherlands) between 1990 and 2020. High resolution human leukocyte antigen (HLA) typing of both recipients and corresponding parental donors will be undertaken, to provide an in-depth assessment of immunological compat‑ ibility. The primary outcome is a composite of de novo donor-specifc anti-HLA antibody (DSA), biopsy-proven acute rejection or allograft loss up to 60-months post-transplantation. Secondary outcomes are de novo DSA, biopsyproven acute rejection, acute or chronic antibody mediated rejection or Chronic Allograft Damage Index (CADI) score of >1 on allograft biopsy post-transplant, allograft function, proteinuria and allograft loss. Using principal component analysis and Cox proportional hazards regression modelling, we will determine the associations between defned sets of immunological and clinical parameters that may identify risk stratifcation for the primary and secondary outcome measures among young people accepting a parental donor kidney for transplantation. This study design will allow us to specifcally investigate the relative importance of accepting a maternal compared to paternal donor, for families deciding on the best option for donation. Discussion: The INCEPTION study fndings will explore potentially diferential immunological risks of maternal and paternal donor kidneys for transplantation among children and adolescents. Our study will provide the evidence base underpinning the selection of parental donor in order to achieve the best projected long-term kidney transplant and overall health outcomes for children and adolescents, a recognized vulnerable population.Wai H. Lim ... Michael Collins ... et al

Improve in-depth immunological risk assessment to optimize genetic-compatibility and clinical outcomes in child and adolescent recipients of parental donor kidney transplants: protocol for the INCEPTION study

Background: Parental donor kidney transplantation is the most common treatment option for children and adolescents with kidney failure. Emerging data from observational studies have reported improved short- and medium-term allograft outcomes in recipients of paternal compared to maternal donors. The INCEPTION study aims to identify potential differences in immunological compatibility between maternal and paternal donor kidneys and ascertain how this affects kidney allograft outcomes in children and adolescents with kidney failure.Methods: This longitudinal observational study will recruit kidney transplant recipients aged 1 on allograft biopsy post-transplant, allograft function, proteinuria and allograft loss. Using principal component analysis and Cox proportional hazards regression modelling, we will determine the associations between defined sets of immunological and clinical parameters that may identify risk stratification for the primary and secondary outcome measures among young people accepting a parental donor kidney for transplantation. This study design will allow us to specifically investigate the relative importance of accepting a maternal compared to paternal donor, for families deciding on the best option for donation.Discussion: The INCEPTION study findings will explore potentially differential immunological risks of maternal and paternal donor kidneys for transplantation among children and adolescents. Our study will provide the evidence base underpinning the selection of parental donor in order to achieve the best projected long-term kidney transplant and overall health outcomes for children and adolescents, a recognized vulnerable population.Transplantation and autoimmunit

Visual acuity of pigs at different light intensities

In most West European countries pigs are housed indoors under low-light conditions. While former Dutch National legislation for pigs required 12 lx for 8 h per day, EU legislation requires 40 lx, so pigs should be able to distinguish small objects and subtle visual signals. However, limited scientific evidence exists about the effects of light intensity (illumination) and object size on the pigs¿ ability to distinguish visual cues. We studied these two effects using operant conditioning with a Landolt-C symbol as shape discriminator. Four Landolt-C symbols with different sizes (with gaps of, respectively, 10 mm (L10), 20 mm (L20), 30 mm (L30) and 40 mm (L40)) were tested under 8 different illuminant levels (0.5, 3, 6, 12, 20, 30, 40 and 80 lx). Following a 4-week training period, 20 female 4-month-old pigs were tested in two batches and the numbers of correct, hesitant and incorrect choices were recorded. Reduced illumination significantly increased the number of incorrect choices (P <0.05). Symbol size also had a significant effect (P <0.001); pigs made more mistakes with the two smaller symbols L10 (41.5%) and L20 (28.6%) compared to the bigger symbols L30 (17.3%) and L40 (16.3%). Furthermore, pigs hesitated less with the smallest symbol L10 (4.5%) compared to L20, L30 and L40 (17.3, 22.3 and 23.0%, respectively; P <0.001). Visual acuity (ability to distinguish details and shapes) varied from 0.001 to 0.03 and pigs failed to discriminate visual cues below 20 mm. Results indicate that the detail of the visual cue (symbol size) has a more pronounced effect on the pigs¿ ability to distinguish visual cues, compared to the illuminant level

Cytomegalovirus prophylaxis in pediatric kidney transplantation: the Dutch experience.

Item does not contain fulltextMany children receiving a kidney transplant are seronegative for CMV and therefore, highly susceptible to a primary CMV infection. This study aims at evaluating incidence, time of occurrence, and severity of CMV infection in the first year post-transplantation in relation to different types of CMV prophylaxis. Transplantations in three centers in the Netherlands between 1999 and 2010 were included. Retrospective, observational, multicenter study. Clinical data and PCR measurements of CMV were collected. Prophylaxis in high-risk patients (CMV serostatus D+R-) consisted of (val)ganciclovir during three months, or acyclovir plus CMV immunoglobulin at a former stage. Intermediate-risk patients (R+) received (val)acyclovir, or acyclovir plus CMV immunoglobulin at a former stage. Low-risk patients (D-R-) did not receive prophylaxis. Infection was defined as CMV PCR above 50 geq/mL plasma or whole blood, a clinically relevant infection above 1000 geq/mL. One hundred and fifty-nine transplantations were included. CMV infection was documented for 41% of high-risk, 24% of intermediate-risk, and 13% of low-risk patients, in the latter two groups typically during the first three months. The infection rate was highest in the high-risk group after cessation of valganciclovir prophylaxis. Valganciclovir provided better protection than did acyclovir + CMV immunoglobulin. Adding an IL2-receptor blocker to the immunosuppressive regimen did not affect the infection rate. Acute graft rejection was not related with CMV infection. Valganciclovir prophylaxis effectively prevents CMV infection in high-risk pediatric kidney recipients, but only during prophylaxis. Valacyclovir prophylaxis in intermediate-risk patients is less effective.1 september 201

Challenges for porcine reproductive and respiratory syndrome virus (PRRSV) vaccinology

Porcine reproductive and respiratory syndrome virus (PRRSV) continues to be a threat for the pig industry. Vaccines have been developed, but these failed to provide sustainable disease control, in particular against genetically unrelated strains. Here we give an overview of current knowledge and gaps in our knowledge that may be relevant for the development of a future generation of more effective vaccines. PRRSV replicates in cells of the monocyte/macrophage lineage, induces apoptosis and necrosis, interferes with the induction of a proinflammatory response, only slowly induces a specific antiviral response, and may cause persistent infections. The virus appears to use several evasion strategies to circumvent both innate and acquired immunity, including interference with antigen presentation, antibody-mediated enhancement, reduced cell surface expression of viral proteins, and shielding of neutralizing epitopes. In particular the downregulation of type I interferon-a production appears to interfere with the induction of acquired immunity. Current vaccines are ineffective because they suffer both from the immune evasion strategies of the virus and the antigenic heterogeneity of field strains. Future vaccines therefore must “uncouple” the immune evasion and apoptogenic/necrotic properties of the virus from its immunogenic properties, and they should induce a broad immune response covering the plasticity of its major antigenic sites. Alternatively, the composition of the vaccine should be changed regularly to reflect presently and locally circulating strains. Preferably new vaccines should also allow discriminating infected from vaccinated pigs to support a virus elimination strategy. Challenges in vaccine development are the incompletely known mechanisms of immune evasion and immunity, lack of knowledge of viral sequences that are responsible for the pathogenic and immunosuppressive properties of the virus, lack of knowledge of the forces that drive antigenic heterogeneity and its consequences for immunogenicity, and a viral genome that is relatively intolerant for subtle changes at functional sites