266 research outputs found
Anti-Malassezia-Specific IgE Antibodies Production in Japanese Patients with Head and Neck Atopic Dermatitis: Relationship between the Level of Specific IgE Antibody and the Colonization Frequency of Cutaneous Malassezia Species and Clinical Severity
Atopic dermatitis of the head and neck (HNAD) is recognized as a separate condition. Malassezia, the predominant skin microbiota fungus, is considered to exacerbate atopic dermatitis (AD), especially HNAD. In the present study, we investigated the relationships between the levels of specific IgE antibodies, colonization frequency of eight predominant Malassezia species, and clinical severity in 61 patients with HNAD (26 mild, 24 moderate, and 11 severe cases). As clinical severity increased, the levels of specific IgE antibodies against eight Malassezia species also increased. Species diversity of the Malassezia microbiota in scale samples from patients was analyzed by nested PCR using species-specific primers. The clinical severity of HNAD was correlated with the total level of specific IgE antibodies against Malassezia species and the number of Malassezia species detected
The Development of a New Setup for Video-assisted Thoracic Surgery
In order to accomplish video-assisted thoracic surgery (VATS) in a much easier and safer
way, especially for assistant operators, we have developed a new display system for VATS.
The original thoracoscope has been designed for this new system. The monitor is fixed at
approximately 10 cm away from the surface of the chest wall just above the operative field.
In using this procedure, the operator and assistants can see the patient and the monitor at
the same time. According to this new idea, the previous problem in the area of hand–eye
coordination and the three-dimensional understanding of this procedure can be improved
compared to the image of the conventional thoracoscopy, because it is not necessary for the
operator and assistants to look up at the monitors. When the thoracoscopy was placed in an
adequate position to resect the target pathology, this new system led to good and easy handling
of instruments, as it was with the standard thoracotomy
Enhancing production of the malaria asexual blood-stage vaccine candidate PfRipr5 in insect cells by modulating expression vector and culture temperature
Despite the recent approval of the first malaria vaccine RTS,S/AS01, its efficacy in children and infants is still modest. Therefore, continued development of new, improved malaria vaccines, including asexual blood-stage vaccines such as the one herein targeted, is essential to reach desired levels of protection against disease and mortality.
In this study, the insect cell-baculovirus expression vector system (IC-BEVS) was used to produce a malaria asexual blood-stage vaccine candidate based on PfRipr5 antigen and compared to traditional mammalian (HEK293) cell system. PfRipr5 could be expressed to higher levels in IC-BEVS, with higher protein purity and reactivity to a conformational anti-PfRipr monoclonal antibody than its mammalian counterpart. The performance of IC-BEVS was further improved by modulating the expression vector sequence and culture temperature. The addition to the expression vector of (i) one alanine (A) amino acid residue adjacent to the signal peptide cleavage site, and (ii) a glycine-serine linker (GGSGG) between the PfRipr5 sequence and the purification tag, resulted in up to 2.2-fold increase in the expression of secreted PfRipr5. In addition, lowering temperature from standard 27 °C to 22 °C at the time of infection improved PfRipr5 productivity by up to 1.7-fold. Noteworthy, a synergistic effect was attained by combining both optimization strategies, enabling to increase expression of extracellular PfRipr5 by up to 4-fold and process yield post-purification by 5.2-fold, while maintaining same degree of protein purity and reactivity.
This work highlights the potential of insect cells to produce the PfRipr5 malaria vaccine candidate and the importance of optimizing the expression vector and culture conditions to boost expression of secreted proteins
Natural infection of Plasmodium falciparum induces inhibitory antibodies against gametocyte development in human hosts.
SUMMARY: We identified naturally induced antibodies from malaria patients in Thailand and clarified the effect of the antibodies on gametocyte development. Fifty-nine percent of the Plasmodium falciparum-infected blood samples (17 of 29) fed to female Anopheles mosquitoes showed no oocyst infection. Seventeen percent of the samples (5 of 29) distorted the morphology and hampered the maturity of the gametocytes. A possible mechanism for the gametocyte inhibitory activity was shown by the binding of the plasma antibodies to live, immature, intraerythrocytic gametocytes during the incubation period. One hundred fifty-seven proteins specific to different gametocyte stages were explored to find the targets of the antisera that bound to the live gametocytes. However, no additional gametocyte transmission-blocking vaccine candidate was detected. Therefore, the development of alternative transmission-blocking vaccines in high-transmission areas should focus on the identification of more gametocyte antigens-inducing inhibitory antibodies that reduce gametocytemia
The association between naturally acquired IgG subclass specific antibodies to the PfRH5 invasion complex and protection from Plasmodium falciparum malaria
Understanding the targets and mechanisms of human immunity to
malaria is important for advancing the development of highly
efficacious vaccines and serological tools for malaria
surveillance. The PfRH5 and PfRipr proteins form a complex on
the surface of P. falciparum merozoites that is essential for
invasion of erythrocytes and are vaccine candidates. We
determined IgG subclass responses to these proteins among
malaria-exposed individuals in Papua New Guinea and their
association with protection from malaria in a longitudinal
cohort of children. Cytophilic subclasses, IgG1 and IgG3, were
predominant with limited IgG2 and IgG4, and IgG
subclass-specific responses were higher in older children and
those with active infection. High IgG3 to PfRH5 and PfRipr were
significantly and strongly associated with reduced risk of
malaria after adjusting for potential confounding factors,
whereas associations for IgG1 responses were generally weaker
and not statistically significant. Results further indicated
that malaria exposure leads to the co-acquisition of IgG1 and
IgG3 to PfRH5 and PfRipr, as well as to other PfRH invasion
ligands, PfRH2 and PfRH4. These findings suggest that IgG3
responses to PfRH5 and PfRipr may play a significant role in
mediating naturally-acquired immunity and support their
potential as vaccine candidates and their use as antibody
biomarkers of immunity
Antibody responses to Plasmodium falciparum and Plasmodium vivax blood-stage and sporozoite antigens in the postpartum period
During pregnancy a variety of immunological changes occur to accommodate the fetus. It is unknown whether these changes continue to affect humoral immunity postpartum or how quickly they resolve. IgG levels were measured to P. falciparum and P. vivax antigens in 201 postpartum and 201 controls over 12 weeks. Linear mixed-effects models assessed antibody maintenance over time and the effect of microscopically confirmed Plasmodium spp. infection on antibody levels, and whether this was different in postpartum women compared with control women. Postpartum women had reduced Plasmodium spp. antibody levels compared to controls at baseline. Over 12 weeks, mean antibody levels in postpartum women increased to levels observed in control women. Microscopically confirmed P. falciparum and P. vivax infections during follow-up were associated with an increase in species-specific antibodies with similar magnitudes of boosting observed in postpartum and control women. Antibodies specific for pregnancy-associated, VAR2CSA-expressing parasites did not rapidly decline postpartum and did not boost in response to infection in either postpartum or control women. After pregnancy, levels of malaria-specific antibodies were reduced, but recovered to levels seen in control women. There was no evidence of an impaired ability to mount a boosting response in postpartum women
Serologic Markers in Relation to Parasite Exposure History Help to Estimate Transmission Dynamics of Plasmodium vivax
Plasmodium vivax infection has been gaining attention because of its re-emergence in several parts of the world. Southeastern Turkey is one of the places in which persistent focal malaria caused exclusively by P. vivax parasites occurs. Although control and elimination studies have been underway for many years, no detailed study has been conducted to understand the mechanisms underlying the ineffective control of malaria in this region. Here, for the first time, using serologic markers we try to extract as much information as possible in this region to get a glimpse of P. vivax transmission. We conducted a sero-immunological study, evaluating antibody responses of individuals living in Sanliurfa to four different P. vivax antigens; three blood-stage antigens (PvMSP119, PvAMA1-ecto, and PvSERA4) and one pre-erythrocytic stage antigen (PvCSP). The results suggest that a prior history of malaria infection and age can be determining factors for the levels and sustainability of naturally acquired antibodies. Significantly higher antibody responses to all the studied antigens were observed in blood smear-negative individuals with a prior history of malaria infection. Moreover, these individuals were significantly older than blood smear-negative individuals with no prior history of infection. These data from an area of sole P. vivax-endemic region may have important implications for the global malaria control/elimination programs and vaccine design
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