COVID-19 perceptions and vaccine hesitancy: Acceptance, attitude, and barriers among Cameroonians.

BACKGROUND: Information about Cameroonians' views toward coronavirus disease 2019 (COVID-19) and amenability to receiving a vaccine is emerging. Learning more about Cameroonians' vaccine perspectives could guide prevention messaging and facilitate optimal communication modalities. OBJECTIVES: The primary objective of this study was to analyze the willingness to receive a COVID-19 vaccine among Cameroonians, pending availability. The secondary objectives were to assess perceptions of COVID-19's origin and to gauge views toward government-mandated vaccinations. METHODS: An 11-item questionnaire queried Cameroonians in-person and online, from March through May 2021, about their demographics and whether they believed that COVID-19 was man-made, whether COVID-19 vaccinations should be governmentally mandated, and whether they would receive a COVID-19 vaccine, if available. A free-text option inviting rationales for COVID-19 vaccine hesitancy was included. In-person participation took place on the grounds of St. Louis University in Douala, Cameroon, and was restricted to participants lacking Internet access or electronic mobile devices. Online participation included use of an electronic link that contained questionnaire content located within Google Forms. RESULTS: A total of 591 respondents participated by replying to at least 8 items on the questionnaire, 386 online and 205 in-person. Over 80% stated that they previously received a seasonal influenza vaccine. Roughly, 87% reported unwillingness to receive a COVID-19 vaccine, if available. Approximately 95% of respondents disagreed with governmental mandates on COVID-19 vaccinations. About 75% attributed COVID-19 to man-made as opposed to natural beginnings. Seven respondents' free-text comments cited lacking confidence in a COVID-19 vaccine, discriminatory COVID-19 vaccine distribution patterns in other parts of the world relative to Africa, and improper COVID-19 vaccine approval timeline. CONCLUSION: Raising awareness of COVID-19 misconceptions and barriers to vaccine acceptance is integral to accomplishing immunization goals. Cameroonians' pessimism in this study toward COVID-19 vaccination was multifaceted. Our findings signal a need for additional research that requests more qualitative insights, for example, interviews, focus groups, into vaccine aversion.

Implication of serum Nitric oxide and IgE in urinary schistosomiasis: The case of Bamendjing, Cameroon.

BACKGROUND: Urinary schistosomiasis (US), also known as bilharziasis is a waterborne parasitic infection most common in rural areas of developing countries. The infection is associated with haematuria but little or nothing is known about its association with other urinary parameters, induction of Nitric Oxide (NO) and IgE production around the Bamendjing Dam an area highly suspected of Schistosoma haematobium infections. The study sought to address this problem for possible future interventions and control. MATERIALS AND METHODS: Urine samples were collected from 301 randomly selected participants and analysed for the presence of S. haematobium using the syringe filtration concentration method. Sera from patients infected with S. haematobium and also from some uninfected individuals were analysed for IgE and NO using ELISA and colorimetric methods respectively. FINDINGS: The results showed a prevalence of 16.9% (51/301). Sixty percent of the 49 patients with nitrite in their urine, were infected with urinary schistosomiasis (US) (30/49; p = 0.00). Meanwhile only 40% of the 15 patients with bilirubinuria were infected with US (6/15; p = 0.0241). The risk of patients with US having leucocytes and nitrites was high (OR of 1.3 and 1.7 respectively). Total IgE serum levels were significantly higher in patients with US (648.872 ± 223.142) compared to uninfected individuals (275.682 ± 181.674) (p = 0.00). Infected persons had heightened mean NO levels (2,583,617.647 ± 1,100,678.786) than non-infected participants (1,689,766.667 ± 1,163,084.729). Urinary Schistosomiasis in association with urinary parameters had a significant impact on mean IgE levels (F = 4.248, p = 0.022). Patients infected with Urinary Schistosomiasis alone had significantly higher mean total IgE levels than non-infected participants (p = 0.004). CONCLUSION: Apart from haematuria, this study has demonstrated that Urinary Schistosomiasis is prevalent among inhabitants around the Bamendjing Dam and results in an increase of other urine parameters such as leucocytes and nitrates and high levels of serum NO and total serum IgE in patients. These parameters are important in the screening of patients for treatment and control of urinary schistosomiasis.

Comparative analysis of macrophage migration inhibitory factors (MIFs) from the parasitic nematode Onchocerca volvulus and the free-living nematode Caenorhabditis elegans.

The macrophage migration inhibitory factors (MIFs) from the filarial parasite Onchocerca volvulus (OvMIF) were compared to the MIFs from the free-living nematode Caenorhabditis elegans (CeMIF) with respect to molecular, biochemical and immunological properties. Except for CeMIF-4, all other MIFs demonstrated tautomerase activity. Surprisingly, OvMIF-1 displayed oxidoreductase activity. The strongest immunostaining for OvMIF-1 was observed in the outer cellular covering of the adult worm body, the syncytial hypodermis; moderate immunostaining was observed in the uterine wall. The generation of a strong humoral immune response towards OvMIF-1 and reduced reactivity to OvMIF-2 was indicated by high IgG levels in patients infected with O. volvulus and cows infected with the closely related Onchocerca ochengi, both MIFs revealing identical amino acid sequences. Using Litomosoides sigmodontis-infected mice, a laboratory model for filarial infection, MIFs derived from the tissue-dwelling O. volvulus, the rodent gut-dwelling Strongyloides ratti and from free-living C. elegans were recognized, suggesting that L. sigmodontis MIF-specific IgM and IgG1 were produced during L. sigmodontis infection of mice and cross-reacted with all MIF proteins tested. Thus, MIF apparently functions as a target of B cell response during nematode infection, but in the natural Onchocerca-specific human and bovine infection, the induced antibodies can discriminate between MIFs derived from parasitic or free-living nematodes.

Nematode-derived proteins suppress proliferation and cytokine production of antigen-specific T cells via induction of cell death.

In order to establish long-lasting infections in their mammalian host, filarial nematodes have developed sophisticated strategies to dampen their host's immune response. Proteins that are actively secreted by the parasites have been shown to induce the expansion of regulatory T cells and to directly interfere with effector T cell function. Here, we analyze the suppressive capacity of Onchocercavolvulus-derived excreted/secreted proteins. Addition of two recombinant O. volvulus proteins, abundant larval transcript-2 (OvALT-2) and novel larval transcript-1 (OvNLT-1) to cell cultures of T cell receptor transgenic CD4(+) and CD8(+) T cells suppressed antigen-specific stimulation in vitro. Ovalbumin-specific CD4(+) DO11.10 and OT-II T cells that had been stimulated with their cognate antigen in the presence of OvALT-2 or OvNLT-1 displayed reduced DNA synthesis quantified by (3)H-thymidine incorporation and reduced cell division quantified by CFSE dilution. Furthermore, the IL-2 and IFN-γ response of ovalbumin-specific CD8(+) OT-I T cells was suppressed by OvALT-2 and OvNLT-1. In contrast, another recombinant O. volvulus protein, microfilariae surface-associated antigen (Ov103), did not modulate T cell activation, thus serving as internal control for non-ESP-mediated artifacts. Suppressive capacity of the identified ESP was associated with induction of apoptosis in T cells demonstrated by increased exposure of phosphatidylserine on the plasma membrane. Of note, the digestion of recombinant proteins with proteinase K did not abolish the suppression of antigen-specific proliferation although the suppressive capacity of the identified excreted/secreted products was not mediated by low molecular weight contaminants in the undigested preparations. In summary, we identified two suppressive excreted/secreted products from O. volvulus, which interfere with the function of antigen-specific T cells in vitro.

Functional characterization and immune recognition of the extracellular superoxide dismutase from the human pathogenic parasite Onchocerca volvulus (OvEC-SOD).

Onchocerca volvulus is a human pathogenic filarial nematode causing chronic onchocerciasis, a disease characterized by chronic skin and eye lesions. Despite attempts to control this infection from many perspectives, it still remains a threat to public health because of adverse effects of available drugs and recent reports of drug resistance. Under control of an intact immune system, O. volvulus survives for a long time in the host by employing a variety of strategies including the utility of antioxidant enzymes. In the present study, we focus on the extracellular superoxide dismutase from O. volvulus (OvEC-SOD) found in the excretory/secretory products of adult worms. Contrary to previous studies, the OvEC-SOD was found to have a 19 amino acid long signal peptide that is cleaved off during the process of maturation. To validate this result, we designed a novel method based on Caenorhabditis elegans cup5(ar465) mutants to specifically evaluate signal peptide-mediated secretion of nematodal proteins. Following purification, the recombinant OvEC-SOD was active as a dimer. Site-directed mutagenesis of the three cysteines present in the OvEC-SOD shows that enzyme activity is markedly reduced in the Cys-192 mutant. A homology model of the OvEC-SOD underlines the importance of Cys-192 for the stabilization of the adjacent active site channel. The generation of a humoral immune response to secretory OvEC-SOD was indicated by demonstrating IgG reactivity in sera from patients infected with O. volvulus while the cross-reactivity of IgG in plasma samples from cows, infected with the most closely related parasite Onchocerca ochengi, occurred only marginally. High IgG1 and IgM titres were recorded in sera from mice infected with the filaria Litomosoides sigmodontis, however, low or no cellular proliferative responses were observed. Thus, the present data suggest that secretory OvEC-SOD is a target of the humoral immune response in human onchocerciasis and induced strongest IgG responses in hyperreactive onchocerciasis. Furthermore, humoral response during murine infection induced SOD-specific IgG that cross-reacted with OvEC-SOD.

Anogeissus leiocarpus extract on the parasite nematode Onchocerca ochengi and on drug resistant mutant strains of the free-living nematode Caenorhabditis elegans.

The ethanolic extract of Anogeissus leiocarpus was assessed for the in vitro anthelmintic activity by using the cattle parasite nematode Onchocerca ochengi as well as levamisole-, ivermectin- and albendazole-resistant mutant strains of the free-living nematode Caenorhabditis elegans, a model organism for research on nematode parasites. Worms were incubated in the presence of different concentrations of the plant extract and effects on survival were monitored after each 12 h to 96 h. The A. leiocarpus extract affected O. ochengi microfilaria, adults, and C. elegans wild-type worms with LC(50) values of 0.06 mg/ml, 0.09 mg/ml after 24h and 0.44 mg/ml after 48 h, respectively. Remarkably, the efficacy of the plant extract was not significantly altered in the ivermectin- and levamisole-resistant C. elegans mutant strains lev-1(e211), glc-2(ok1047), lev-9(x16) and avr-14(ad1302), avr-15(ad1051), glc-1(pk54). The albendazole resistant strain ben-1(e1880) exhibited a moderate increase of the LC(50) value to 1.5mg/ml after 48 h. These results are in good accordance with the use of A. leiocarpus extract against nematode infections by traditional healers, herdsmen and pastoralists. Moreover, the data indicate that the plant extract could be used to treat nematode infections even in cases of drug resistance towards established anthelmintic drugs.

Characterization of a secreted macrophage migration inhibitory factor homologue of the parasitic nematode Strongyloides acting at the parasite-host cell interface.

Strongyloidiasis is a tropical parasitosis characterized by an alternation between free-living and parasitic stages, and by long-term infection via autoinfection. Since invasion and evasion processes of helminth parasites are substantially attained by the involvement of excretory-secretory products, we identified and characterized the 13.5 kDa macrophage migration inhibitory factor (MIF)-like protein in Strongyloides ratti. Sra-MIF is mainly secreted from the infective stage larvae (iL3), while the transcript was found at lower levels in parasitic and free-living females. Sequence analysis of the full-length cDNA showed the highest homology to the human pathogen Strongyloides stercoralis, and both are related to the MIF type-2. Unlike other mif genes, the Sra-mif includes no intron. The protein was recombinantly expressed in Escherichia coli and purified. Sra-MIF exhibited no in vitro tautomerase activity. The exposure of Sra-MIF to the host immune system is confirmed by high IgG reactivities found in the hosts' sera following infection or immunization. Flow cytometric analysis indicated the binding of Sra-MIF to the monocytes/macrophage lineage but not to peripheral lymphocytes. After exposure to Sra-MIF, monocytes released IL-10 but not TNF-alpha suggesting the involvement of the secreted parasite MIF in host immune responses.

Stage-specific excretory-secretory small heat shock proteins from the parasitic nematode Strongyloides ratti--putative links to host's intestinal mucosal defense system.

In a search for molecules involved in the interaction between intestinal nematodes and mammalian mucosal host cells, we performed MS to identify excretory-secretory proteins from Strongyloides ratti. In the excretory-secretory proteins of the parasitic female stage, we detected, in addition to other peptides, peptides homologous with the Caenorhabditis elegans heat shock protein (HSP)-17, named Sra-HSP-17.1 (∼ 19 kDa) and Sra-HSP-17.2 (∼ 18 kDa), with 49% amino acid identity. The full-length cDNAs (483 bp and 474 bp, respectively) were identified, and the genomic organization was analyzed. To allow further characterization, the proteins were recombinantly expressed and purified. Profiling of transcription by quantitative real-time-PCR and of protein by ELISA in various developmental stages revealed parasitic female-specific expression. Sequence analyses of both the DNA and amino acid sequences showed that the two proteins share a conserved α-crystallin domain and variable N-terminals. The Sra-HSP-17s showed the highest homology with the deduced small HSP sequence of the human pathogen Strongyloides stercoralis. We observed strong immunogenicity of both proteins, leading to strong IgG responses following infection of rats. Flow cytometric analysis indicated the binding of Sra-HSP-17s to the monocyte-macrophage lineage but not to peripheral lymphocytes or neutrophils. A rat intestinal epithelial cell line showed dose-dependent binding to Sra-HSP-17.1, but not to Sra-HSP-17.2. Exposed monocytes released interleukin-10 but not tumor necrosis factor-α in response to Sra-HSP-17s, suggesting the possible involvement of secreted female proteins in host immune responses.