Compositional and expression analyses of the glideosome during the Plasmodium life cycle reveal an additional myosin light chain required for maximum motility

Myosin A (MyoA) is a Class XIV myosin implicated in gliding motility and host cell and tissue invasion by malaria parasites. MyoA is part of a membrane-associated protein complex called the glideosome, which is essential for parasite motility and includes the MyoA light chain MTIP, and several glideosome-associated proteins (GAPs). However, most studies of MyoA have focused on single stages of the parasite life cycle. We examined MyoA expression throughout the Plasmodium berghei life cycle in both mammalian and insect hosts. In extracellular ookinetes, sporozoites and merozoites, MyoA was located at the parasite periphery. In the sexual stages, zygote formation and initial ookinete differentiation precede MyoA synthesis and deposition, which occurred only in the developing protuberance. In developing intracellular asexual blood stages, MyoA was synthesized in mature schizonts and was located at the periphery of segmenting merozoites, where it remained throughout maturation, merozoite egress and host cell invasion. Besides the known GAPs in the malaria parasite, the complex included GAP40, an additional myosin light chain designated essential light chain (ELC) and several other candidate components. This ELC bound the MyoA neck region adjacent to the MTIP binding site, and both myosin light chains co-located to the glideosome. Co-expression of MyoA with its two light chains revealed that the presence of both light chains enhances MyoA-dependent actin motility. In conclusion, we have established a system to study the interplay and function of the three glideosome components, enabling the assessment of inhibitors that target this motor complex to block host cell invasion

A rapid antibody screening haemagglutination test for predicting immunity to SARS-CoV-2 variants of concern

Background: Evaluation of susceptibility to emerging SARS-CoV-2 variants of concern (VOC) requires rapid screening tests for neutralising antibodies which provide protection. Methods: Firstly, we developed a receptor-binding domain-specific haemagglutination test (HAT) to Wuhan and VOC (alpha, beta, gamma and delta) and compared to pseudotype, microneutralisation and virus neutralisation assays in 835 convalescent sera. Secondly, we investigated the antibody response using the HAT after two doses of mRNA (BNT162b2) vaccination. Sera were collected at baseline, three weeks after the first and second vaccinations from older (80–99 years, n = 89) and younger adults (23–77 years, n = 310) and compared to convalescent sera from naturally infected individuals (1–89 years, n = 307). Results: Here we show that HAT antibodies highly correlated with neutralising antibodies (R = 0.72–0.88) in convalescent sera. Home-dwelling older individuals have significantly lower antibodies to the Wuhan strain after one and two doses of BNT162b2 vaccine than younger adult vaccinees and naturally infected individuals. Moverover, a second vaccine dose boosts and broadens the antibody repertoire to VOC in naïve, not previously infected older and younger adults. Most (72–76%) older adults respond after two vaccinations to alpha and delta, but only 58–62% to beta and gamma, compared to 96–97% of younger vaccinees and 68–76% of infected individuals. Previously infected older individuals have, similarly to younger adults, high antibody titres after one vaccination. Conclusions: Overall, HAT provides a surrogate marker for neutralising antibodies, which can be used as a simple inexpensive, rapid test. HAT can be rapidly adaptable to emerging VOC for large-scale evaluation of potentially decreasing vaccine effectiveness.publishedVersio

SARS-CoV-2 specific immune responses in overweight and obese COVID-19 patients

Obesity is a known risk factor for severe respiratory tract infections. In this prospective study, we assessed the impact of being obese or overweight on longitudinal SARS-CoV-2 humoral and cellular responses up to 18 months after infection. 274 patients provided blood samples at regular time intervals up to 18 months including obese (BMI ≥30, n=32), overweight (BMI 25-29.9, n=103) and normal body weight (BMI 18.5-24.9, n=134) SARS-CoV-2 patients. We determined SARS-CoV-2 spike-specific IgG, IgA, IgM levels by ELISA and neutralising antibody titres by neutralisation assay. RBD- and spike-specific memory B cells were investigated by ELISpot, spike- and non-spike-specific IFN-γ, IL-2 and IFN-γ/IL-2 secreting T cells by FluoroSpot and T cell receptor (TCR) sequencing was performed. Higher BMI correlated with increased COVID-19 severity. Humoral and cellular responses were stronger in overweight and obese patients than normal weight patients and associated with higher spike-specific IgG binding titres relative to neutralising antibody titres. Linear regression models demonstrated that BMI, age and COVID-19 severity correlated independently with higher SARS-CoV-2 immune responses. We found an increased proportion of unique SARS-CoV-2 specific T cell clonotypes after infection in overweight and obese patients. COVID-19 vaccination boosted humoral and cellular responses irrespective of BMI, although stronger immune boosting was observed in normal weight patients. Overall, our results highlight more severe disease and an over-reactivity of the immune system in overweight and obese patients after SARS-CoV-2 infection, underscoring the importance of recognizing overweight/obese individuals as a risk group for prioritisation for COVID-19 vaccination

Structural studies and in vivo characterisation of Oct4:PORE and Oct4/Sox2:UTF1 complexes

Monikykyiset kantasolut pystyvät erilaistumaan alkion kehityksen aikana miksi tahansa kehittyvän eläimen kudokseksi. Alkion kehitystä on tutkittu vuosikymmeniä ja ensimmäisen kerran kantasoluja viljeltiin 1980-luvulla. Noin vuosikymmen myöhemmin kloonattiin ensimmäinen nisäkäs, Dolly-lammas, mikä oli läpimurto perimän kloonauksessa. Vajaa kymmenen vuotta sitten japanilaiset tutkijat pystyivät ensimmäisen kerran tuottamaan indusoituja monikykyisiä kantasoluja. Nämä kantasolut tuotettiin ilmentämällä neljää geeniä, jotka uudelleenohjelmoivat erilaistuneet solut takaisin kantasoluiksi. Geenien ilmentymistä säätelevä ja DNA:han sitoutuvan proteiinin Oct4:n on todettu olevan tärkeä tekijä uudelleenohjelmissa. Oct4 kuuluu transkriptiotekijäperheeseen, joka säätelee geenien ilmentymistä kantasoluissa. Tässä työssä kiteytin Oct4-proteiinin sen kohde-DNA:n kanssa sekä tutkin sen sitoutumista ja atomitason rakennetta röntgensädekristallografian avulla. Tutkimuksessamme paljastui useita Oct4:n atomitason rakenteellisia ominaisuuksia, jotka selittävät sen säätelymekanismeja kantasoluissa.

Two independently folding units of Plasmodium profilin suggest evolution via gene fusion

Gene fusion is a common mechanism of protein evolution that has mainly been discussed in the context of multidomain or symmetric proteins. Less is known about fusion of ancestral genes to produce small single-domain proteins. Here, we show with a domain-swapped mutant Plasmodium profilin that this small, globular, apparently single-domain protein consists of two foldons. The separation of binding sites for different protein ligands in the two halves suggests evolution via an ancient gene fusion event, analogous to the formation of multidomain proteins. Finally, the two fragments can be assembled together after expression as two separate gene products. The possibility to engineer both domain-swapped dimers and half-profilins that can be assembled back to a full profilin provides perspectives for engineering of novel protein folds, e.g., with different scaffolding functions

Biophysical analysis of Plasmodium falciparum Hsp70-Hsp90 organising protein (PfHop) reveals a monomer that is characterised by folded segments connected by flexible linkers

Abstract Plasmodium falciparum causes the most lethal form of malaria. The cooperation of heat shock protein (Hsp) 70 and 90 is thought to facilitate folding of select group of cellular proteins that are crucial for cyto-protection and development of the parasites. Hsp70 and Hsp90 are brought into a functional complex that allows substrate exchange by stress inducible protein 1 (STI1), also known as Hsp70-Hsp90 organising protein (Hop). P. falciparum Hop (PfHop) co-localises and occurs in complex with the parasite cytosolic chaperones, PfHsp70‐1 and PfHsp90. Here, we characterised the structure of recombinant PfHop using synchrotron radiation circular dichroism (SRCD) and small-angle X-ray scattering. Structurally, PfHop is a monomeric, elongated but folded protein, in agreement with its predicted TPR domain structure. Using SRCD, we established that PfHop is unstable at temperatures higher than 40°C. This suggests that PfHop is less stable at elevated temperatures compared to its functional partner, PfHsp70‐1, that is reportedly stable at temperatures as high as 80°C. These findings contribute towards our understanding of the role of the Hop-mediated functional partnership between Hsp70 and Hsp90

Solution structures of the <i>Pf</i>-Frm1 domains.

<p><b>A</b>, Raw synchrotron SAXS data for <i>Pf</i>-Frm1-FH1FH2 (red), <i>Pf</i>-Frm1-FH2 (blue), and <i>Pf</i>-Frm1-FH2Δlasso (green). <b>B</b>, Distance distribution functions derived from the SAXS data; coloring as in panel A. <b>C</b>, SANS data for <i>Pf</i>-Frm1-FH1FH2. A radius of gyration (R_g) of 5.7 nm and a maximum particle dimension (D_max) of 18 nm can be estimated from the data. <b>D</b>, Averaged <i>ab initio</i> dummy atom models for <i>Pf</i>-Frm1-FH1FH2 (red) and <i>Pf</i>-Frm1-FH2 (blue) created by DAMMIN. The extensions at the extremities most likely correspond to the FH1 domain. <b>E</b>, Averaged <i>ab initio</i> models for <i>Pf</i>-Frm1-FH2 created by DAMMIN (blue) and GASBOR (cyan). The two figures are related by a 90° rotation about the X-axis. Both methods produce very similar models that fit the data. <b>F</b>, Averaged <i>ab initio</i> model for <i>Pf</i>-Frm1-FH2Δlasso (green) created by DAMMIN, superimposed on the structure of <i>Pf</i>-Frm1-FH1FH2 (red). Note that <i>Pf</i>-Frm1-FH2Δlasso is highly elongated, lacking a compact domain in the middle. <b>G</b>, SRCD spectra for the <i>Pf</i>-Frm1 variants. Coloring as in panel A. <i>Pf</i>-Frm1-FH2 has the highest relative helical content; see text for details on spectral deconvolution.</p

Effect of <i>Pf</i>-Pfn on actin polymerization kinetics in the presence of <i>Pf</i>-Frm1.

<p>The effect of <i>Pf</i>-Pfn added at a 1∶1 or 2∶1 molar ratio to actin on the kinetics of actin polymerization in the presence of the different <i>Pf</i>-Frm1 domains was tested by measuring the change in fluorescence upon incorporation of 5% pyrene-actin into growing actin polymers. The actin concentration used in all experiments was 5 µM. <b>A</b>, <i>Pf</i>-Pfn together with 10 nM <i>Pf</i>-Frm1-FH1FH2. <b>B</b>, <i>Pf</i>-Pfn together with 10 nM <i>Pf</i>-Frm1-FH2. <b>C</b>, <i>Pf</i>-Pfn together with 10 nM <i>Pf</i>-Frm1-FH2Δlasso.</p