Dengue NS1 antibodies are associated with clearance of viral NS1.

BACKGROUND: Dengue vascular permeability syndrome is the primary cause of death in severe dengue infections. The protective versus potentially pathogenic role of dengue NS1 antibodies are not well understood. The main goal of this analysis was to characterize the relationship between free NS1 concentration and NS1 antibody titers in primary and secondary dengue infection in order to better understand the presence and duration of NS1 antibody complexes in clinical dengue infections. METHODS: Hospitalized participants with acute dengue infection were recruited from Northern Colombia between 2018 to 2020. Symptom assessment including dengue signs and symptoms, chart review and blood collection was performed. Primary versus secondary Dengue was assessed serologically. NS1 titers and anti-NS1 antibodies were measured daily. RESULTS: Patients with secondary infection have higher antibody titers than those in primary infection, and we find a negative correlation between anti-NS1 antibody titer and NS1 protein. We demonstrate that in a subset of secondary infection, there are indeed NS1 antibody-antigen complexes at the admission day during the febrile phase that are not detectable by the recovery phase. Furthermore, dengue infection status is associated with higher circulating sialidases. DISCUSSION: The negative correlation between antibody and protein suggests that antibodies may play a role in clearing this viral protein.

Is Dengue Vaccine Protection Possible?

In tropical and subtropical countries, 4 dengue viruses (DENVs) produce mild disease and a potentially fatal vascular permeability syndrome. Unique antigenic and biological properties of DENVs contribute to vaccine development delays. Three tissue culture-based tetravalent candidate dengue vaccines have advanced to phase 3 clinical testing. Sanofi-Pasteur's chimeric yellow fever tetravalent dengue vaccine, Dengvaxia, licensed in 19 dengue-endemic countries, Europe, and the United States, partially protects seropositives but sensitizes some seronegatives to severe hospitalized dengue. During 2 years of phase 3, Takeda's TAK-003, a chimeric DENV 2 tetravalent vaccine, protected against DENV 2 but was less protective against other DENVs. In seronegative adults, 1 dose of a tetravalent nonstructural deletion mutant vaccine in late phase developed by the US National Institutes of Health protected seronegative humans against challenge with DENVs 2 and 3. This experience suggests nearly whole DENV genomes are required to achieve balanced and sustained protective immunity.

Understanding immunological origins of atopic dermatitis through multi-omic analysis.

BACKGROUND: The pathophysiology of atopic dermatitis (AD) is multifactorial, impacted by individual medical, demographic, environmental, and immunologic factors. This study used multi-omic analyses to assess how host and microbial factors could contribute to infant AD development. METHODS: This longitudinal cohort study included 129 term infants, identified as AD (n = 37) or non-AD (n = 92) using the Infant Feeding Practices-II survey and review of medical records. Standardized surveys were used to assess medical and demographic traits (gestational age, sex, race, maternal AD, and atopy family history), and environmental exposures (delivery method, maternal tobacco use, pets, breastfeeding duration, and timing of solid food introduction). Saliva was collected at 6 months for multi-omic assessment of cytokines, microRNAs, mRNAs, and the microbiome. The contribution of each factor to AD status was assessed with logistic regression. RESULTS: Medical, demographic, and environmental factors did not differ between AD and non-AD infants. Five "omic" factors (IL-8/IL-6, miR-375-3p, miR-21-5p, bacterial diversity, and Proteobacteria) differed between groups (p < .05). The severity of AD was positively associated with levels of miR-375-3p (R = .17, p = .049) and Proteobacteria (R = .22, p = .011), and negatively associated with levels of miR-21-5p (R = .20, p = .022). Multi-omic features accounted for 17% of variance between groups, significantly improving an AD risk model employing medical, demographic, and environmental factors (X2  = 32.47, p = .006). CONCLUSION: Interactions between the microbiome and host signaling may predispose certain infants to AD by promoting a pro-inflammatory environment.

COVID-19 Vaccines: Should We Fear ADE?

Might COVID-19 vaccines sensitize humans to antibody-dependent enhanced (ADE) breakthrough infections? This is unlikely because coronavirus diseases in humans lack the clinical, epidemiological, biological, or pathological attributes of ADE disease exemplified by dengue viruses (DENV). In contrast to DENV, SARS and MERS CoVs predominantly infect respiratory epithelium, not macrophages. Severe disease centers on older persons with preexisting conditions and not infants or individuals with previous coronavirus infections. Live virus challenge of animals given SARS or MERS vaccines resulted in vaccine hypersensitivity reactions (VAH), similar to those in humans given inactivated measles or respiratory syncytial virus vaccines. Safe and effective COVID-19 vaccines must avoid VAH.

Preparing for the Behavioral Health Impact of COVID-19 in Michigan.

PURPOSE OF REVIEW: As a global pandemic, COVID-19 has profoundly disrupted the lives of individuals, families, communities, and nations. This report summarizes the expected impact of COVID-19 on behavioral health, as well as strategies to address mental health needs during the COVID-19 pandemic and its aftermath. The state of Michigan in the USA is used to illustrate the complexity of the mental health issues and the critical gaps in the behavioral health infrastructure as they pertain to COVID-19. Scoping review was conducted to identify potential mental health needs and issues during the COVID-19 pandemic and its aftermath. RECENT FINDINGS: The ramifications of COVID-19 on mental health are extensive, with the potential to negatively impact diverse populations including healthcare providers, children and adolescents, older adults, the LGBTQ community, and individuals with pre-existing mental illness. Suicide rates, alone, are expected to rise for Michiganders due to the economic downturn, isolation and quarantine, increased substance use, insomnia, and increased access to guns associated with the COVID-19 pandemic. This report promotes awareness of a behavioral health crisis due to COVID-19. Increasing access to behavioral health care should minimize COVID-19's negative influence on mental health in Michigan. We propose a three-prong approach to access: awareness, affordability, and technology. Addressing workforce development and fixing gaps in critical behavioral health infrastructure will also be essential. These actions need to be implemented immediately to prepare for the expected "surge" of behavioral health needs in the ensuing months.

Biologic Evidence Required for Zika Disease Enhancement by Dengue Antibodies.

The sudden appearance of overt human Zika virus infections that cross the placenta to damage fetal tissues, target sexual organs, and are followed in some instances by Guillain-Barré syndrome raises questions regarding whether these outcomes are caused by genetic mutations or if prior infection by other flaviviruses affects disease outcome. Because dengue and Zika viruses co-circulate in the urban Aedes aegypti mosquito-human cycle, a logical question, as suggested by in vitro data, is whether dengue virus infections result in antibody-dependent enhancement of Zika virus infections. This review emphasizes the critical role for epidemiologic studies (retrospective and prospective) in combination with the studies to identify specific sites of Zika virus infection in humans that are needed to establish antibody-dependent enhancement as a possibility or a reality.

A relevant in vitro human model for the study of Zika virus antibody-dependent enhancement.

Zika virus (ZIKV) is a mosquito-borne flavivirus that has recently been responsible for a serious outbreak of disease in South and Central America. Infection with ZIKV has been associated with severe neurological symptoms and the development of microcephaly in unborn fetuses. Many of the regions involved in the current outbreak are known to be endemic for another flavivirus, dengue virus (DENV), which indicates that a large percentage of the population may have pre-existing DENV immunity. Thus, it is vital to investigate what impact pre-existing DENV immunity has on ZIKV infection. Here, we use primary human myeloid cells as a model for ZIKV enhancement in the presence of DENV antibodies. We show that sera containing DENV antibodies from individuals living in a DENV-endemic area are able to enhance ZIKV infection in a human macrophage-derived cell line and primary human macrophages. We also demonstrate altered pro-inflammatory cytokine production in macrophages with enhanced ZIKV infection. Our study indicates an important role for pre-existing DENV immunity on ZIKV infection in primary human immune cells and establishes a relevant in vitro model to study ZIKV antibody-dependent enhancement.

Reappearance of chikungunya, formerly called dengue, in the Americas.

After an absence of ≈200 years, chikungunya returned to the American tropics in 2013. The virus is maintained in a complex African zoonotic cycle but escapes into an urban cycle at 40- to 50-year intervals, causing global pandemics. In 1823, classical chikungunya, a viral exanthem in humans, occurred on Zanzibar, and in 1827, it arrived in the Caribbean and spread to North and South America. In Zanzibar, the disease was known as kidenga pepo, Swahili for a sudden cramp-like seizure caused by an evil spirit; in Cuba, it was known as dengue, a Spanish homonym of denga. During the eighteenth century, dengue (present-day chikungunya) was distinguished from breakbone fever (present-day dengue), another febrile exanthem. In the twentieth century, experiments resulted in the recovery and naming of present-day dengue viruses. In 1952, chikungunya virus was recovered during an outbreak in Tanzania, but by then, the virus had lost its original name to present-day dengue viruses.

High-avidity and potently neutralizing cross-reactive human monoclonal antibodies derived from secondary dengue virus infection.

The envelope (E) protein of dengue virus (DENV) is the major target of neutralizing antibodies (Abs) and vaccine development. Previous studies of human dengue-immune sera reported that a significant proportion of anti-E Abs, known as group-reactive (GR) Abs, were cross-reactive to all four DENV serotypes and to one or more other flaviviruses. Based on studies of mouse anti-E monoclonal antibodies (MAbs), GR MAbs were nonneutralizing or weakly neutralizing compared with type-specific MAbs; a GR response was thus not regarded as important for vaccine strategy. We investigated the epitopes, binding avidities, and neutralization potencies of 32 human GR anti-E MAbs. In addition to fusion loop (FL) residues in E protein domain II, human GR MAbs recognized an epitope involving both FL and bc loop residues in domain II. The neutralization potencies and binding avidities of GR MAbs derived from secondary DENV infection were stronger than those derived from primary infection. GR MAbs derived from primary DENV infection primarily blocked attachment, whereas those derived from secondary infection blocked DENV postattachment. Analysis of the repertoire of anti-E MAbs derived from patients with primary DENV infection revealed that the majority were GR, low-avidity, and weakly neutralizing MAbs, whereas those from secondary infection were primarily GR, high-avidity, and potently neutralizing MAbs. Our findings suggest that the weakly neutralizing GR anti-E Abs generated from primary DENV infection become potently neutralizing MAbs against the four serotypes after secondary infection. The observation that the dengue immune status of the host affects the quality of the cross-reactive Abs generated has implications for new strategies for DENV vaccination.

Secondary infection as a risk factor for dengue hemorrhagic fever/dengue shock syndrome: an historical perspective and role of antibody-dependent enhancement of infection.

Today, dengue viruses are the most prevalent arthropod-borne viruses in the world. Since the 1960s, numerous reports have identified a second heterologous dengue virus (DENV) infection as a principal risk factor for severe dengue disease (dengue hemorrhagic fever/dengue shock syndrome, DHF/DSS). Modifiers of dengue disease response include the specific sequence of two DENV infections, the interval between infections, and contributions from the human host, such as age, ethnicity, chronic illnesses and genetic background. Antibody-dependent enhancement (ADE) of dengue virus infection has been proposed as the early mechanism underlying DHF/DSS. Dengue cross-reactive antibodies raised following a first dengue infection combine with a second infecting virus to form infectious immune complexes that enter Fc-receptor-bearing cells. This results in an increased number of infected cells and increased viral output per cell. At the late illness stage, high levels of cytokines, possibly the result of T cell elimination of infected cells, result in vascular permeability, leading to shock and death. This review is focused on the etiological role of secondary infections (SI) and mechanisms of ADE.

Vaccine-Associated Enhanced Viral Disease: Implications for Viral Vaccine Development.

Vaccine-associated enhanced disease (VAED) is a serious barrier to attaining successful virus vaccines in human and veterinary medicine. VAED occurs as two different immunopathologies, antibody-dependent enhancement (ADE) and vaccine-associated hypersensitivity (VAH). ADE contributes to the pathology of disease caused by four dengue viruses (DENV) through control of the intensity of cellular infection. Products of virus-infected cells are toxic. A partially protective yellow fever chimeric tetravalent DENV vaccine sensitized seronegative children to ADE breakthrough infections. A live-attenuated tetravalent whole virus vaccine in phase III testing appears to avoid ADE by providing durable protection against the four DENV. VAH sensitization by viral vaccines occurred historically. Children given formalin-inactivated measles or respiratory syncytial virus (RSV) vaccines experienced severe disease during breakthrough infections. Tissue responses demonstrated that VAH not ADE caused these vaccine safety problems. Subsequently, measles was successfully and safely contained by a live-attenuated virus vaccine. The difficulty in formulating a safe and effective RSV vaccine is troublesome evidence that avoiding VAH is a major research challenge. VAH-like tissue responses were observed during breakthrough homologous virus infections in monkeys given severe acute respiratory syndrome (SARS) or Middle East respiratory syndrome (MERS) vaccines.

Japanese encephalitis: new options for active immunization.

Japanese encephalitis (JE) is a mosquito-borne flavivirus infection responsible for significant morbidity and mortality across Asia. Indigenous populations and those who undertake short- and long-term travel to endemic regions are at risk of infection and development of neuroinvasive disease. Effective mouse brain-derived vaccines have been available in select countries, including the United States, for decades. Limited access in Asia and safety concerns with regard to mouse brain products prompted the Chinese to develop a live, attenuated virus vaccine (SA14-14-2; Chengdu Institute of Biological Products), which has proven to be safe and efficacious following administration of >300 million doses. Recently, the portfolio of JE vaccines increased again with licensure in the United States, Europe, and Australia of a purified, inactivated virus JE vaccine (IC51; Intercell AG) and filing for licensure in Thailand and Australia of a Yellow fever-JE chimeric vaccine (ChimeriVax-JE; Sanofi Pasteur). JE is a vaccine-preventable disease with numerous options now available for active immunization. Aggressive and responsible vaccination programs should greatly diminish the burden of disease.