Your search keyword '"measles virus"' showing total 12,814 results

101. Antibody inhibition of measles virus entry.

Author

Aguilar, Hector C.

Subjects

*MEASLES virus, *MEMBRANE fusion, *CELL receptors, *MEMBRANE glycoproteins, *VIRUS diseases

Abstract

The article focuses on the process of virus-cell membrane fusion, particularly in paramyxoviruses like measles virus (MeV), where two viral glycoproteins collaborate to enter host cells and induce syncytia formation. Zyla et al. used advanced cryo-electron microscopy to reveal a novel intermediate step in MeV fusion triggered by the antibody mAb 77, highlighting its potential as a therapeutic by inhibiting viral entry at a crucial stage.

Published

2024

102. Viral-induced neuroinflammation: Different mechanisms converging to similar exacerbated glial responses

Author

Brenda Rocamonde, Uzma Hasan, Cyrille Mathieu, and Hélène Dutartre

Subjects

neuro-infection, HTLV-1, measles virus, Nipah virus (NiV), HAM/TSP pathogenesis, multiple sclerosis, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

There is increasing evidence that viral infections are the source/origin of various types of encephalitis, encephalomyelitis, and other neurological and cognitive disorders. While the involvement of certain viruses, such as the Nipah virus and measles virus, is known, the mechanisms of neural invasion and the factors that trigger intense immune reactions are not fully understood. Based on recent publications, this review discusses the role of the immune response, interactions between viruses and glial cells, and cytokine mediators in the development of inflammatory diseases in the central nervous system. It also highlights the significant gaps in knowledge regarding these mechanisms.

Published

2023

103. Anti-measles virus activity of 4-hydroxy-3-methoxy benzaldehyde (Vanillin) isolated from Xylopia aethiopica (Dunal) A. rich

Author

Bolaji B. Oluremi, Paul M. Osamudiamen, Johnson A. Adeniji, and Olapeju O. Aiyelaagbe

Subjects

Xylopia aethiopica, Measles virus, Anti-measles virus activity, Vanillin, 4-hydroxy-3-methoxybenzaldehyde, Science

Abstract

Xylopia aethiopica is a plant used ethnomedicinally for the treatment of several infections in Nigeria. This study was carried out to isolate the active compound(s) in Xylopia aethiopica and evaluate their anti-measles virus activity. The Dichloromethane (DCM) fraction of Xylopia aethiopica was fractionated using chromatographic techniques, which led to the isolation of a compound characterized using spectroscopic techniques, FT-IR, 1D and 2D NMR in addition to in vitro anti-measles evaluation in adsorption and post-infection inhibition assays. The isolated compound characterized as 4-Hydroxy-3-methoxy benzaldehyde (Vanillin) was active on measles virus and has minimum nontoxic dose of 10 µg with cytotoxic and inhibitory activity of CC50 = 84.18 µg/mL, IC50 = 0.71 µg/mL and selectivity index (SI) = 118.56 (r2 = 0.979) and interfered with viral attachment and fusion. This is the first report of the isolation of Vanillin from Xylopia aethiopica leaf and its high antiviral activity shows it could be developed further into a promising antiviral lead compound.

Published

2023

104. Early Permissiveness of Central Nervous System Cells to Measles Virus Infection Is Determined by Hyperfusogenicity and Interferon Pressure.

Author

Ferren, Marion, Lalande, Alexandre, Iampietro, Mathieu, Canus, Lola, Decimo, Didier, Gerlier, Denis, Porotto, Matteo, and Mathieu, Cyrille

Subjects

*MEASLES virus, *CENTRAL nervous system, *VIRUS diseases, *TYPE I interferons, *INTERFERONS, *MICROGLIA, *AVIAN influenza

Abstract

The cessation of measles virus (MeV) vaccination in more than 40 countries as a consequence of the COVID-19 pandemic is expected to significantly increase deaths due to measles. MeV can infect the central nervous system (CNS) and lead to lethal encephalitis. Substantial part of virus sequences recovered from patients' brain were mutated in the matrix and/or the fusion protein (F). Mutations of the heptad repeat domain located in the C terminal (HRC) part of the F protein were often observed and were associated to hyperfusogenicity. These mutations promote brain invasion as a hallmark of neuroadaptation. Wild-type F allows entry into the brain, followed by limited spreading compared with the massive invasion observed for hyperfusogenic MeV. Taking advantage of our ex vivo models of hamster organotypic brain cultures, we investigated how the hyperfusogenic mutations in the F HRC domain modulate virus distribution in CNS cells. In this study, we also identified the dependence of neural cells susceptibility on both their activation state and destabilization of the virus F protein. Type I interferon (IFN-I) impaired mainly astrocytes and microglial cells permissiveness contrarily to neurons, opening a new way of consideration on the development of treatments against viral encephalitis. [ABSTRACT FROM AUTHOR]

Published

2023

105. Genetic Characteristics of Measles Viruses Isolated in Taiwan between 2015 and 2020.

Author

Cheng, Wen-Yueh, Chen, Bao-Shen, Wang, Hsiao-Chi, and Liu, Ming-Tsan

Subjects

*MEASLES virus, *COVID-19, *MEASLES, *SEQUENCE analysis, *GENOTYPES, *DISEASE eradication

Abstract

A genetic analysis of circulating measles virus (MeV) provides strong evidence of an interruption in endemic measles and supports the elimination status of this disease. This study investigated 219 MeVs isolated between 2015 and 2020. Based on the 450 nucleotide sequences of the nucleoprotein gene (N-450), three genotypes of the H1, D8 and B3 with 8, 18 and 6 different N-450 sequences, respectively, were identified. The H1 genotype virus has not circulated in Taiwan since 2017, and the D8 and B3 genotype MeVs became dominant between 2018 and 2019. Different D8 genotype variants were imported from neighboring countries, and the majority of MeV variants were detected only for a short period. However, MVs/Gir Somnath.IND/42.16[D8], a named strain designated by the World Health Organization (WHO), was detected over 2 years. To explore whether the endemic transmission of measles has been underestimated, another sequence window of the hypervariable, noncoding regions between the matrix (M) and fusion (F) genes (MF-NCR) was introduced to clarify the transmission chain. From the chronological sequence analysis of MeVs with N-450 and MF-NCR sequence windows, no endemic MeV variants lasted over 4 weeks, providing strong evidence to support the contention that Taiwan has reached the status for measles elimination. [ABSTRACT FROM AUTHOR]

Published

2023

106. Measles Outbreak Response Activity in Japan, and a Discussion for a Possible Strategy of Outbreak Response Using Cycle Threshold Values of Real-Time Reverse Transcription PCR for Measles Virus in Measles Elimination Settings.

Author

Seto, Junji, Aoki, Yoko, Komabayashi, Kenichi, Yamada, Keiko, Ishikawa, Hitoshi, Ichikawa, Tomoo, Ahiko, Tadayuki, and Mizuta, Katsumi

Subjects

*MEASLES virus, *MEASLES, *MEASLES vaccines, *BASIC reproduction number, *VACCINE effectiveness

Abstract

Measles is a highly contagious, but vaccine-preventable disease caused by the measles virus (MeV). Although the administration of two doses of measles vaccines is the most effective strategy to prevent and eliminate measles, MeV continues to spread worldwide, even in 2022. In measles-eliminated countries, preparedness and response to measles outbreaks originating from imported cases are required to maintain elimination status. Under these circumstances, real-time reverse transcription (RT) PCR for MeV could provide a diagnostic method capable of strengthening the subnational capacity for outbreak responses. Real-time RT-PCR can detect MeV RNA from patients with measles at the initial symptomatic stage, which can enable rapid public health responses aimed at detecting their contacts and common sources of infection. Furthermore, low cycle threshold (Ct) values (i.e., high viral load) of throat swabs indicate high infectiousness in patients with measles. The high basic reproduction number of measles suggests that patients with high infectiousness can easily become super-spreaders. This opinion proposes a possible strategy of rapid and intensive responses to counter measles outbreaks caused by super-spreader candidates showing low Ct values in throat swabs. Our strategy would make it possible to effectively prevent further measles transmission, thereby leading to the early termination of measles outbreaks. [ABSTRACT FROM AUTHOR]

Published

2023

107. Etiological analysis of discarded measles in the context of a measles outbreak among a highly immunized population.

Author

Torner, Nuria, Mercader, Sara, Dominguez, Angela, Martinez, Ana, Costa, Josep, Sowers, Sun B., Abernathy, Emily S., Bellini, William J., and Hickman, Carol J.

Subjects

*MEASLES prevention, *POPULATION, *MEASLES, *IMMUNIZATION, *SCIENTIFIC observation, *IMMUNOGLOBULINS, *CONFIDENCE intervals, *RETROSPECTIVE studies, *DIFFERENTIAL diagnosis, *EPIDEMICS, *ODDS ratio, *PARAMYXOVIRUSES

Abstract

Background: Measles can lead to serious complications and remains an important cause of morbidity and mortality worldwide. In this study we aimed to assess the etiological diagnosis of discarded measles cases in the context of an outbreak among a highly immunized population. Methods: We conducted a retrospective observational study of discarded measles cases from an outbreak that occurred from October 2006 to July 2007 in Catalonia. A confirmed case was defined as having a positive measles serum IgM result and/or a positive result by RT‐PCR in urine and/or nasopharyngeal swab; or an epidemiological link to a confirmed case. Serum specimens were tested by a commercially available indirect‐format and by an in‐house capture‐format measles IgM enzyme immunoassays. Results: Testing of 89 samples discarded for measles determined the etiologies for 10 (11.2%), including one rubella, three human herpes virus 6, and six measles infections. Of 381 confirmed cases in the outbreak, 10% had received at least one dose of the measles‐mumps‐rubella vaccine versus 54% of the discarded for measles (OR: 0.09; 95% CI: 0.06, 0.14; p < 0.001). Conclusions: Highly sensitive surveillance systems are critical to identifying cases, responding to outbreaks and verifying progress towards measles elimination. Molecular tools for measles detection and differential diagnosis, and collection of appropriate specimens for molecular and serological testing are essential to correctly diagnose suspected measles infection. [ABSTRACT FROM AUTHOR]

Published

2023

108. Influence of Sex, Body Mass Index, and Age on Cellular and Humoral Immune Responses Against Measles After a Third Dose of Measles-Mumps-Rubella Vaccine.

Author

Quach, Huy Quang, Chen, Jun, Monroe, Jonathon M, Ratishvili, Tamar, Warner, Nathaniel D, Grill, Diane E, Haralambieva, Iana H, Ovsyannikova, Inna G, Poland, Gregory A, and Kennedy, Richard B

Subjects

*MMR vaccines, *BODY mass index, *HUMORAL immunity, *MONONUCLEAR leukocytes, *CELLULAR aging, *IMMUNE response

Abstract

Background A third dose of measles-mumps-rubella vaccine (MMR3) is recommended in mumps outbreak scenarios, but the immune response and the need for widespread use of MMR3 remain uncertain. Herein, we characterized measles-specific immune responses to MMR3 in a cohort of 232 healthy subjects. Methods Serum and peripheral blood mononuclear cells (PBMCs) were sampled at day 0 and day 28 after MMR3. Measles-specific binding and neutralizing antibodies were quantified in sera by enzyme-linked immunosorbent assay and a microneutralization assay, respectively. PBMCs were stimulated with inactivated measles virus, and the release of cytokines/chemokines was assessed by a multiplex assay. Demographic variables of subjects were examined for potential correlations with immune outcomes. Results Of the study participants, 95.69% and 100% were seropositive at day 0 and day 28, respectively. Antibody avidity significantly increased from 38.08% at day 0 to 42.8% at day 28 (P =.00026). Neutralizing antibodies were significantly enhanced, from 928.7 at day 0 to 1289.64 mIU/mL at day 28 (P =.0001). Meanwhile, cytokine/chemokine responses remained largely unchanged. Body mass index was significantly correlated with the levels of inflammatory cytokines/chemokines. Conclusions Measles-specific humoral immune responses, but not cellular responses, were enhanced after MMR3 receipt, extending current understanding of immune responses to MMR3 and supporting MMR3 administration to seronegative or high-risk individuals. [ABSTRACT FROM AUTHOR]

Published

2023

109. Assessing the Effects of Measles Virus Infections on Childhood Infectious Disease Mortality in Brazil.

Author

Xia, Siyang, Gullickson, Cricket C, Metcalf, C Jessica E, Grenfell, Bryan T, and Mina, Michael J

Subjects

*VIRUS diseases, *MEASLES virus, *COMMUNICABLE diseases, *JUVENILE diseases, *MEASLES vaccines

Abstract

Background Measles virus infection induces acute immunosuppression for weeks following infection, and also impairs preexisting immunological memory, resulting in "immune amnesia" that can last for years. Both mechanisms predispose the host to severe outcomes of subsequent infections. Therefore, measles dynamics could potentially affect the epidemiology of other infectious diseases. Methods To examine this hypothesis, we analyzed the annual mortality rates of children aged 1–9 years in Brazil from 1980 to 1995. We calculated the correlation between nonmeasles infectious disease mortality rates and measles mortality rates using linear and negative-binomial models, with 3 methods to control the confounding effects of time. We also estimated the duration of measles-induced immunomodulation. Results The mortality rates of nonmeasles infectious diseases and measles virus infection were highly correlated. This positive correlation remained significant after removing the time trends. We found no evidence of long-term measles immunomodulation beyond 1 year. Conclusions These results support that measles virus infection could increase the mortality of other infectious diseases. The short lag identified for measles effects (<1 year) implies that acute immunosuppression was potentially driving this effect in Brazil. Overall, our study indicates disproportionate contributions of measles to childhood infectious disease mortality, highlighting the importance of measles vaccination. [ABSTRACT FROM AUTHOR]

Published

2023

110. Therapeutic Applications for Oncolytic Self-Replicating RNA Viruses.

Author

Lundstrom, Kenneth

Subjects

*RNA viruses, *MEASLES virus, *TRANSGENE expression, *GENE expression, *RHABDOVIRUSES, *MULTIPLE myeloma, *NANOMEDICINE, *OVARIAN cancer, *PLANT viruses

Abstract

Self-replicating RNA viruses have become attractive delivery vehicles for therapeutic applications. They are easy to handle, can be rapidly produced in large quantities, and can be delivered as recombinant viral particles, naked or nanoparticle-encapsulated RNA, or plasmid DNA-based vectors. The self-replication of RNA in infected host cells provides the means for generating much higher transgene expression levels and the possibility to apply substantially reduced amounts of RNA to achieve similar expression levels or immune responses compared to conventional synthetic mRNA. Alphaviruses and flaviviruses, possessing a single-stranded RNA genome of positive polarity, as well as measles viruses and rhabdoviruses with a negative-stranded RNA genome, have frequently been utilized for therapeutic applications. Both naturally and engineered oncolytic self-replicating RNA viruses providing specific replication in tumor cells have been evaluated for cancer therapy. Therapeutic efficacy has been demonstrated in animal models. Furthermore, the safe application of oncolytic viruses has been confirmed in clinical trials. Multiple myeloma patients treated with an oncolytic measles virus (MV-NIS) resulted in increased T-cell responses against the measles virus and several tumor-associated antigen responses and complete remission in one patient. Furthermore, MV-CEA administration to patients with ovarian cancer resulted in a stable disease and more than doubled the median overall survival. [ABSTRACT FROM AUTHOR]

Published

2022

111. Functional Implications of Dynamic Structures of Intrinsically Disordered Proteins Revealed by High-Speed AFM Imaging.

Author

Ando, Toshio

Subjects

*ATOMIC force microscopy, *MEASLES virus, *PROTEINS, *DUMBBELLS

Abstract

The unique functions of intrinsically disordered proteins (IDPs) depend on their dynamic protean structure that often eludes analysis. High-speed atomic force microscopy (HS-AFM) can conduct this difficult analysis by directly visualizing individual IDP molecules in dynamic motion at sub-molecular resolution. After brief descriptions of the microscopy technique, this review first shows that the intermittent tip–sample contact does not alter the dynamic structure of IDPs and then describes how the number of amino acids contained in a fully disordered region can be estimated from its HS-AFM images. Next, the functional relevance of a dumbbell-like structure that has often been observed on IDPs is discussed. Finally, the dynamic structural information of two measles virus IDPs acquired from their HS-AFM and NMR analyses is described together with its functional implications. [ABSTRACT FROM AUTHOR]

Published

2022

112. Measles Virus-Induced Host Immunity and Mechanisms of Viral Evasion.

Author

Amurri, Lucia, Reynard, Olivier, Gerlier, Denis, Horvat, Branka, and Iampietro, Mathieu

Subjects

*CELLULAR recognition, *MEASLES virus, *MEASLES, *IMMUNITY, *CELL communication, *VIRUS diseases, *PLANT viruses

Abstract

The immune system deploys a complex network of cells and signaling pathways to protect host integrity against exogenous threats, including measles virus (MeV). However, throughout its evolutionary path, MeV developed various mechanisms to disrupt and evade immune responses. Despite an available vaccine, MeV remains an important re-emerging pathogen with a continuous increase in prevalence worldwide during the last decade. Considerable knowledge has been accumulated regarding MeV interactions with the innate immune system through two antagonistic aspects: recognition of the virus by cellular sensors and viral ability to inhibit the induction of the interferon cascade. Indeed, while the host could use several innate adaptors to sense MeV infection, the virus is adapted to unsettle defenses by obstructing host cell signaling pathways. Recent works have highlighted a novel aspect of innate immune response directed against MeV unexpectedly involving DNA-related sensing through activation of the cGAS/STING axis, even in the absence of any viral DNA intermediate. In addition, while MeV infection most often causes a mild disease and triggers a lifelong immunity, its tropism for invariant T-cells and memory T and B-cells provokes the elimination of one primary shield and the pre-existing immunity against previously encountered pathogens, known as "immune amnesia". [ABSTRACT FROM AUTHOR]

Published

2022

113. Host 5'-3' Exoribonuclease XRN1 Acts as a Proviral Factor for Measles Virus Replication by Downregulating the dsRNAActivated Kinase PKR.

Author

BenDavid, Ethan, Pfaller, Christian K., Yue Pan, Samuel, Charles E., and Dzwokai Ma

Subjects

*MEASLES virus, *VIRAL replication, *CELLULAR inclusions, *DOUBLE-stranded RNA, *PROTEIN kinases

Abstract

Many negative-sense RNA viruses, including measles virus (MeV), are thought to carry out much of their viral replication in cytoplasmic membraneless foci known as inclusion bodies (IBs). The mechanisms by which IBs facilitate efficient viral replication remain largely unknown but may involve an intricate network of regulation at the host-virus interface. Viruses are able to modulate such interactions by a variety of strategies including adaptation of their genomes and "hijacking" of host proteins. The latter possibility broadens the molecular reservoir available for a virus to enhance its replication and/or antagonize host antiviral responses. Here, we show that the cellular 5'-3' exoribonuclease, XRN1, is a host protein hijacked by MeV. We found that upon MeV infection, XRN1 is translocated to cytoplasmic IBs where it acts in a proviral manner by preventing the accumulation of double-stranded RNA (dsRNA) within the IBs. This leads to the suppression of the dsRNA-induced innate immune responses mediated via the protein kinase R (PKR)-integrated stress response (ISR) pathway. [ABSTRACT FROM AUTHOR]

Published

2022

114. Transcriptome Analysis of Human Glioblastoma Cells Susceptible to Infection with the Leningrad-16 Vaccine Strain of Measles Virus.

Author

Ammour, Yulia, Susova, Olga, Krasnov, George, Nikolaeva, Eugenia, Varachev, Vyacheslav, Schetinina, Yulia, Gavrilova, Marina, Mitrofanov, Alexey, Poletaeva, Anna, Bekyashev, Ali, Faizuloev, Evgeny, Zverev, Vitaly V., Svitich, Oxana A., and Nasedkina, Tatiana V.

Subjects

*MEASLES virus, *MEASLES vaccines, *TYPE I interferons, *BRAIN tumors, *GLIOBLASTOMA multiforme

Abstract

Glioblastoma multiforme (GBM) accounts for almost half of all primary malignant brain tumors in adults and has a poor prognosis. Here we demonstrated the oncolytic potential of the L-16 vaccine strain of measles virus (MV) against primary human GBM cells and characterized the genetic patterns that determine the sensitivity of primary human GBM cells to oncolytic therapy. MV replicated in all GBM cells, and seven out of eight cell lines underwent complete or partial oncolysis. RNA-Seq analysis identified about 1200 differentially expressed genes (FDR < 0.05) with at least two-fold expression level change between MV-infected and uninfected cells. Among them, the most significant upregulation was observed for interferon response, apoptosis and cytokine signaling. One out of eight GBM cell lines was defective in type I interferon production and, thus, in the post-interferon response, other cells lacked expression of different cellular defense factors. Thus, none of the cell lines displayed induction of the total gene set necessary for effective inhibition of MV replication. In the resistant cells, we detected aberrant expression of metalloproteinase genes, particularly MMP3. Thus, such genes could be considered intriguing candidates for further study of factors responsible for cell sensitivity and resistance to L-16 MV infection. [ABSTRACT FROM AUTHOR]

Published

2022

115. Independent distribution between tauopathy secondary to subacute sclerotic panencephalitis and measles virus: An immunohistochemical analysis in autopsy cases including cases treated with aggressive antiviral therapies.

Author

Miyahara, Hiroaki, Akagi, Akio, Riku, Yuichi, Sone, Jun, Otsuka, Yasushi, Sakai, Motoko, Kuru, Satoshi, Hasegawa, Masato, Yoshida, Mari, Kakita, Akiyoshi, and Iwasaki, Yasushi

Subjects

*MEASLES virus, *TAUOPATHIES, *AUTOPSY, *IMMUNOHISTOCHEMISTRY, *CEREBRAL ventricles, *CINGULATE cortex, *LOCUS coeruleus

Abstract

Subacute sclerotic panencephalitis (SSPE) is a refractory neurological disorder after exposure to measles virus. Recently, SSPE cases have been treated with antiviral therapies, but data on the efficacy are inconclusive. Abnormal tau accumulation has been reported in the brain tissue of SSPE cases, but there are few reports in which this is amply discussed. Five autopsied cases diagnosed as definite SSPE were included in this study. The subject age or disease duration ranged from 7.6 to 40.9 years old or from 0.5 to 20.8 years, respectively. Cases 3 and 4 had been treated with antiviral therapies. All evaluated cases showed marked brain atrophy with cerebral ventricle dilatation; additionally, marked demyelination with fibrillary gliosis were observed in the cerebral white matter. The brainstem, cerebellum, and spinal cord were relatively preserved. Immunoreactivity (IR) against measles virus was seen in the brainstem tegmentum, neocortex, and/or limbic cortex of the untreated cases but was rarely seen in the two treated cases. Activated microglia were broadly observed from the cerebrum to the spinal cord and had no meaningful difference among cases. Neurofibrillary tangles characterized by a combination of 3‐ and 4‐repeat tau were observed mainly in the oculomotor nuclei, locus coeruleus, and limbic cortex. IR against phosphorylated tau was seen mainly in the cingulate gyrus, oculomotor nuclei, and pontine tegmentum, and tended to be observed frequently in cases with long disease durations but also tended to decrease along with neuronal loss, as in Case 5, which had the longest disease duration. Since the distribution of phosphorylated tau was independent from that of measles virus, the tauopathy following SSPE was inferred to be the result of diffuse brain inflammation triggered by measles rather than a direct result of measles virus. Moreover, antiviral therapies seemed to suppress measles virus but not the progression of tauopathy. [ABSTRACT FROM AUTHOR]

Published

2022

116. Seroprevalence of Measles Antibodies in a Highly MMR-Vaccinated Population.

Author

Quach, Huy Quang, Ovsyannikova, Inna G., Grill, Diane E., Warner, Nathaniel D., Poland, Gregory A., and Kennedy, Richard B.

Subjects

MEASLES, IMMUNOGLOBULIN G, SEROPREVALENCE, IMMUNOGLOBULINS, VACCINATION coverage

Abstract

As an extremely contagious pathogen, a high rate of vaccine coverage and the durability of vaccine-induced immunity are key factors to control and eliminate measles. Herein, we assessed the seroprevalence of antibodies specific to measles in a cohort of 1393 adults (20–44 years old). ELISA results showed a nontrivial proportion of 37.6% study subjects being negative for measles immunoglobulin G (IgG). We also found significant influences of sex and age of the study cohort on the IgG level. Our findings suggest that even within a highly vaccinated population, a subset of individuals may still have sub-optimal immunity against measles and potentially be susceptible during any future measles outbreaks. [ABSTRACT FROM AUTHOR]

Published

2022

117. Measles Virus Neutralizing Antibody Response and Durability Two Years after One or Two Doses of Measles–Mumps–Rubella Vaccine among Young Seronegative Healthcare Workers.

Author

Jang, Byungki, Kim, Han Wool, Kim, Han-Sung, Park, Ji Young, Seo, Hyeonji, and Kim, Yong Kyun

Subjects

MEDICAL personnel, MMR vaccines, MEASLES virus, VIRAL antibodies, ANTIBODY formation

Abstract

Although there have been several studies regarding the immunogenicity of one or two booster doses of the measles–mumps–rubella (MMR) vaccine in measles-seronegative young adults, limited data are available about how long the immune response is sustained compared with natural infection. This study included seronegative healthcare workers (HCWs) (aged 21–38 years) who received one or two doses of the measles–mumps–rubella (MMR) vaccine and HCWs with laboratory-confirmed measles infection during an outbreak in 2019. We compared neutralizing antibody titers measured using the plaque reduction neutralization (PRN) test and measles-specific immunoglobulin G (IgG) using chemiluminescent immunoassays 2 years after vaccination or infection. Among 107 HCWs with seronegative measles IgGs, the overall seroconversion rate of measles IgGs remained 82.2% (88/107), and 45.8% (49/107) of the participants had a medium (121–900) or high (>900) PRN titer after 2 years from one or two booster doses. The measles-neutralizing antibody titers of both PRN titer (ND50) and geometric mean concentration 2 years after natural infection were significantly higher than those of one or two booster doses of the MMR vaccine (p < 0.001 and p < 0.001, respectively). Our results suggest that serologic screening followed by appropriate postexposure prophylaxis can be beneficial for young HCWs without a history of natural infection especially in a measles outbreak setting, because of possible susceptibility to measles despite booster MMR vaccination 2 years ago. Long-term data about sustainable humoral immunity after one or two booster vaccination are needed based on the exact vaccination history. [ABSTRACT FROM AUTHOR]

Published

2022

118. Diagnostic significance of lactate dehydrogenase in measles virus reinfection cases.

Author

Nishijima, Haruna, Ogawa, Tomoko, and Shirasawa, Hiroshi

Subjects

MEASLES virus, REINFECTION, RECEIVER operating characteristic curves, IMMUNE serums, IMMUNOGLOBULIN M, LOGISTIC regression analysis, LACTATE dehydrogenase

Abstract

Lactate dehydrogenase (LDH) levels in measles virus (MeV) reinfection cases for the diagnosis of measles have not been extensively studied. Thus, we evaluated the significance of serum LDH in the immune response of patients with MeV reinfection in comparison with those of patients with primary infection. Among 70 patients who tested positive for MeV‐RNA, 42 with high MeV–specific IgG avidity (HA) were suspected as cases of reinfection and 28 with low MeV–specific IgG (LA) were suspected as cases of primary infection. The viral loads in the HA group were also lower than those in the LA group (P < 0.001). The titers of MeV‐specific IgM and IgG in the HA group were significantly lower and higher, respectively, than those in the LA group (P < 0.001). The total LDH and LDH isozyme levels were elevated in the LA group compared with those in the HA group (P < 0.001). Through receiver operating characteristic curve analyses, we determined that the area under the curve of total LDH level was 0.87 (95% CI 0.74–1.00) and that the discriminatory accuracy was high for total LDH and all isozymes. By stepwise binary logistic regression analysis considering MeV‐specific IgG avidity, we developed a model using IgG, IgM, and total LDH as explanatory variables, which was optimal for distinguishing the LA and HA groups (adjusted R2 = 0.773, P < 0.001). Thus, the serum LDH level in addition to IgM and IgG may be useful parameters for differentiating MeV reinfection from primary infection. [ABSTRACT FROM AUTHOR]

Published

2022

119. Comparative study on molecular epidemiology of measles H1 outbreak and sporadic cases in Shandong Province, 2013–2019

Author

Suting Wang, Changyin Wang, Xiaodong Liu, Yao Liu, Ping Xiong, Zexin Tao, Meng Chen, Qing Xu, Li Zhang, and Aiqiang Xu

Subjects

Measles virus, H1, Phylogeny, Molecular epidemiology, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Measles caused by measles virus (MeV) is a highly contagious viral disease which has also been associated with complications including pneumonia, myocarditis, encephalitis, and subacute sclerosing panencephalitis. The current study isolated 33 strains belonging to 2 groups, outbreak and sporadic strains, in 13 cities of Shandong province, China from 2013 to 2019. Comparison of genetic characterization among 15 outbreak strains and 18 sporadic strains was performed by analyzing nucleotide sequences of the C-terminal region of N protein gene (N-450). Results All 33 stains belonged to genotype H1. The outbreak strains and sporadic strains distributed crossly in phylogenetic tree. Sequences alignment revealed some interesting G to A transversion which changed the amino acids on genomic sites 1317, 1422, and 1543. The nucleotide and amino acid similarities among outbreak isolates were 98–100% (0–10 nucleotide variations) and 97.7–100%, respectively; They were 97.3–100% and 96.6–100%, respectively for sporadic isolates. Evolutionary genetics analysis revealed that the mean evolution rates of outbreak and sporadic isolates were 1.26 N 10− 3 and 1.48 N 10− 3 substitutions per site per year separately, which were similar with corresponding data before 2012. Local transmission analysis suggested that there were three transmission chains in this study, two of them originated from Japan. Outbreak cases and sporadic cases emerged alternatively and were reciprocal causation on the transmission chains. Conclusions Our study investigated the phylogeny and evolutional genetics of MeV during a 7-year surveillance, and compared epidemic and genetic characteristics of outbreak strains and sporadic strains. These results underscore the importance of evolutionary study alongside with sporadic cases in discovering and tracing possible outbreaks, especially in the stage of measles elimination.

Published

2022

120. Oncolytic measles vaccines encoding PD-1 and PD-L1 checkpoint blocking antibodies to increase tumor-specific T cell memory

Author

Rūta Veinalde, Gemma Pidelaserra-Martí, Coline Moulin, Lara M. Jeworowski, Linda Küther, Christian J. Buchholz, Dirk Jäger, Guy Ungerechts, and Christine E. Engeland

Subjects

oncolytic virus, measles virus, PD-1, PD-L1, immune checkpoint, cancer immunotherapy, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

PD-1/PD-L1 checkpoint blockade has achieved unprecedented success in cancer immunotherapy. Nevertheless, many immune-excluded tumors are resistant to therapy. Combination with oncolytic virotherapy may overcome resistance by inducing acute inflammation, immune cell recruitment, and remodeling of the tumor immune environment. Here, we assessed the combination of oncolytic measles vaccine (MV) vectors and PD-1/PD-L1 blockade. In the MC38cea model of measles virus oncolysis, MV combined with anti-PD-1 and MV vectors encoding anti-PD-1 or anti-PD-L1 antibodies achieved modest survival benefits compared with control MV or vectors encoding the antibody constant regions only. Analyses of tumor samples and tumor-draining lymph nodes revealed slight increases in intratumoral T cell effector cytokines as well as a shift toward an effector memory phenotype in the T cell compartment. Importantly, increased IFN-γ recall responses were observed in tumor rechallenge experiments with mice in complete tumor remission after treatment with MV encoding anti-PD-1 or anti-PD-L1 compared with control MV. These results prompted us to generate MV encoding the clinically approved agents pembrolizumab and nivolumab. Previously, we have generated MV encoding atezolizumab. We demonstrated the functionality of the novel vectors in vitro. We envision these vectors as therapeutics that induce and support durable anti-tumor immune memory.

Published

2022

121. miRNA-mediated control of exogenous OCT4 during mesenchymal-epithelial transition increases measles vector reprogramming efficiency

Author

Ramya Rallabandi, Brenna Sharp, Conrad Cruz, Qi Wang, Alexis Locsin, Christopher B. Driscoll, Ella Lee, Tim Nelson, and Patricia Devaux

Subjects

measles virus, reprogramming, iPSC, microRNA targeting, OCT4, mesenchymal-epithelial transition, Genetics, QH426-470, Cytology, QH573-671

Abstract

OCT4 is a key mediator of induced pluripotent stem cell (iPSC) reprogramming, but the mechanistic insights into the role of exogenous OCT4 and timelines that initiate pluripotency remain to be resolved. Here, using measles reprogramming vectors, we present microRNA (miRNA) targeting of exogenous OCT4 to shut down its expression during the mesenchymal to the epithelial transition phase of reprogramming. We showed that exogenous OCT4 is required only for the initiation of reprogramming and is dispensable for the maturation stage. However, the continuous expression of SOX2, KLF4, and c-MYC is necessary for the maturation stage of the iPSC. Additionally, we demonstrate a novel application of miRNA targeting in a viral vector to contextually control the vector/transgene, ultimately leading to an improved reprogramming efficiency. This novel approach could be applied to other systems for improving the efficiency of vector-induced processes.

Published

2022

122. Onward transmission of measles virus among vaccinated cases in a large community outbreak in Auckland, New Zealand, 2019.

Author

Evans, Imogen, Jury, Sheryl, Morrison, Anne, Best, Emma, King, Victoria, and Reynolds, Edwin

Subjects

*VACCINATION status, *PUBLIC health, *MEASLES vaccines, *MEASLES virus, *VACCINATION, *COVID-19

Abstract

Background: Isolation of cases and quarantining of non-immune contacts are the mainstay of measles outbreak management in elimination settings. Serology testing of exposed contacts may not be feasible in large outbreaks; therefore, vaccination history is used as a proxy for determining immunity to measles and thus prevention of onward virus transmission. This study sought to investigate the risk of measles virus transmission from individuals with a history of one or two doses of measles-containing vaccine (MCV). Methods: Retrospective analysis of data from measles cases reported to Auckland Regional Public Health Service during the 2019 Auckland region measles outbreak. Vaccination history was verified using patient records and the New Zealand National Immunisation Register. Onward transmission was determined through case interviews and assessment of exposed contacts. Results: 1451 measles cases were assessed as eligible for vaccination at the time of measles outbreak. Of these, 1015 (70.0%) were unvaccinated, 220 (15.2%) had unknown vaccination status, 139 (9.6%) had received only one dose of MCV and 77 (5.3%) had received two doses of the vaccine. Compared to unvaccinated cases, the odds of onward transmission were lower among those with one dose only (OR 0.41, 95% CI: 0.20–0.75) or two doses of MCV (OR 0.44, 95% CI: 0.17–0.95). Median time since vaccination was longer among those with onward transmission compared to those without onward transmission for one and two doses of the vaccine, suggesting a potential effect of waning immunity among this cohort. Conclusion: These findings support the hypothesis that measles cases with a history of prior vaccination are less likely to transmit the virus to others compared to unvaccinated cases. Such information can be used to support decisions around quarantine requirements for vaccinated contacts in future measles outbreaks. [ABSTRACT FROM AUTHOR]

Published

2024

123. M-F noncoding region sequences of H1 genotype measles virus provide higher resolution for virus transmission tracing.

Author

Song, Jinhua, Zhu, Zhen, Wang, Huiling, Hu, Manli, Xia, Baicheng, and Zhang, Yan

Subjects

*MEASLES virus, *RUBELLA, *GENOTYPES, *GENETIC variation, *EXTRACELLULAR matrix proteins, *GENE fusion

Abstract

As countries and regions move toward measles elimination, extended sequence window including noncoding region located between the matrix and fusion protein genes (M − F NCR) was considered to be used in molecular surveillance. The molecular resolution of M − F NCR was evaluated with 192 genotype H1 strains circulating during 2011–2018 in China. Phylogenetic analyses of the N450 and M − F NCR targets indicated that both two targets could confirm epi-linked outbreak, while M − F NCR target could further improve resolution of the molecular characterization: (1) it could differentiate the strains with identical N450 circulated in one county within one month of disease onset; (2) different transmission chains could be distinguished for strains with identical N450; (3) better spatial-temporal consistency with topology could be provided among sporadic cases with inconsistent N450. Accordingly, M − F NCR could be used to complement the information from N450 to address the specific questions in tracking the virus transmission chains. • The limited genetic variation of N450 hampers its effective use in surveillance, especially during the elimination stage. • Compared with N450, M − F NCR even provided higher resolution in virus strains from outbreak and sporadic cases. • M − F NCR could be used to complement the information from N450 in molecular surveillance for virus transmission tracking. [ABSTRACT FROM AUTHOR]

Published

2024

124. The challenges and main recommendations to fight measles in India: A mini review.

Author

Tabassum, Shehroze, Hassan Hafeez, Muhammad, Naeem, Aroma, Bibi, Arifa, Akilimali, Aymar, and Sharma, Vishal

Subjects

*MEASLES, *PARAMYXOVIRUSES, *MEASLES virus, *COVID-19 pandemic, *RNA viruses, *RUBELLA

Abstract

The measles virus is an RNA virus belonging to the Paramyxoviridae family. It leads to an acute communicable illness that primarily involves the respiratory tract. Vaccination has significantly reduced the overall incidence and mortality worldwide; however, outbreaks still occur globally each year due to several factors. The SARS-CoV-2 pandemic has been a major hurdle since 2020. Despite the World Health Organization's goal to eradicate measles by 2023, there has been an increase in measles incidence in India, with 61,562 cases in 2022. Vaccination is a crucial preventive measure, and coverage needs to be increased through education, advocacy, and outreach to isolated communities. • Measles is an acute illness, characterized by high-grade fever, coryza, cough, conjunctivitis, and Koplik spots and measles virus is an RNA virus belonging to the Paramyxoviridae family. • Vaccination has significantly reduced the overall incidence and mortality worldwide since 1985, however, outbreaks still occur specially in developing countries each year due to several reasons. • Vaccination is a crucial preventive measure and coverage needs to be increased through education, advocacy, and outreach to isolated communities. [ABSTRACT FROM AUTHOR]

Published

2024

125. Correction: Murphy, H.; Ly, H. Understanding Immune Responses to Lassa Virus Infection and to Its Candidate Vaccines. Vaccines 2022, 10 , 1668.

Author

Murphy, Hannah and Ly, Hinh

Subjects

MEASLES virus, VIRUS diseases, IMMUNE response, VACCINES, SPINE

Abstract

This correction notice addresses errors in a published paper titled "Understanding Immune Responses to Lassa Virus Infection and to Its Candidate Vaccines." The corrections involve a mistake in the notation of a vaccine in Table 1 and errors in the description of a vaccine candidate in Section 4.1. The authors clarify that these corrections do not impact the scientific conclusions of the paper. The notice was approved by the Academic Editor and the original publication has been updated. [Extracted from the article]

Published

2024

126. Novel Antiviral Molecules against Ebola Virus Infection

Author

Mila Collados Rodríguez, Patrick Maillard, Alexandra Journeaux, Anastassia V. Komarova, Valérie Najburg, Raul-Yusef Sanchez David, Olivier Helynck, Mingzhe Guo, Jin Zhong, Sylvain Baize, Frédéric Tangy, Yves Jacob, Hélène Munier-Lehmann, and Eliane F. Meurs

Subjects

Ebola virus, measles virus, VP35, PKR, PACT, RIG-I, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Infection with Ebola virus (EBOV) is responsible for hemorrhagic fever in humans with a high mortality rate. Combined efforts of prevention and therapeutic intervention are required to tackle highly variable RNA viruses, whose infections often lead to outbreaks. Here, we have screened the 2P2I3D chemical library using a nanoluciferase-based protein complementation assay (NPCA) and isolated two compounds that disrupt the interaction of the EBOV protein fragment VP35IID with the N-terminus of the dsRNA-binding proteins PKR and PACT, involved in IFN response and/or intrinsic immunity, respectively. The two compounds inhibited EBOV infection in cell culture as well as infection by measles virus (MV) independently of IFN induction. Consequently, we propose that the compounds are antiviral by restoring intrinsic immunity driven by PACT. Given that PACT is highly conserved across mammals, our data support further testing of the compounds in other species, as well as against other negative-sense RNA viruses.

Published

2023

127. Treatment of COVID-19 by Combination Therapy with 5-fluorouracil, Ribonucleosides and Ribavirin—A Modified Strategy

Author

Ahmad, Shamim I. and Ahmad, Shamim I., editor

Published

2021

128. Brief Introduction of Measles Virus and Its Therapeutic Strategies

Author

Nascimento, Igor José dos Santos, Santos-Júnior, Paulo Fernando da Silva, Silva-Júnior, Edeildo Ferreira da, and Ahmad, Shamim I., editor

Published

2021

129. Prevalence of laboratory markers of human respiratory viruses in monkeys of Adler primate center

Author

L. I. Korzaya, D. I. Dogadov, A. M. Goncharenko, A. A. Karlsen, K. K. Kyuregyan, and M. I. Mikhailov

Subjects

human respiratory viruses – influenza a, influenza b, parainfluenza types 1, 2, 3, 4, respiratory syncytial (rs) virus, adenovirus, measles virus, antibodies (igg, igm), enzyme-linked immunosorbent assay (elisa), monkeys, Microbiology, QR1-502

Abstract

Introduction. The relevance of studying the circulation of human respiratory viruses among laboratory primates is associated with the need to test vaccines and antiviral drugs against these infections on monkeys. The aim of this work was to study the prevalence of serological and molecular markers of human respiratory viral infections in laboratory primates born at the Adler Primate Center and in imported monkeys. Material and methods. Blood serum samples (n = 1971) and lung autopsy material (n = 26) were obtained from different monkey species. These samples were tested for the presence of serological markers of measles, parainfluenza (PI) types 1, 2, 3, influenza A and B, respiratory syncytial (RS) and adenovirus infections using enzyme immunoassay (ELISA). Detection of RS virus, metapneumovirus, PI virus types 1–4, rhinovirus, coronavirus, and adenoviruses B, C, E and bocavirus nucleic acids in this material was performed by reverse transcription polymerase chain reaction (RT-PCR). Results and discussion. The overall prevalence of antibodies (Abs) among all monkeys was low and amounted 11.3% (95% CI: 9.2–13.7%, n = 811) for measles virus, 8.9% (95% CI: 6.2–12.2%, n = 381) for PI type 3 virus, 2.5% (95% CI: 0.8–5.6%, n = 204) for PI type 1 virus, and 7.7% (95% CI: 3.8–13.7%, n = 130) for adenoviruses. When testing 26 autopsy lung samples from monkeys of different species that died from pneumonia, 2 samples from Anubis baboons (Papio аnubis) were positive for of parainfluenza virus type 3 RNA. Conclusion. Our data suggest the importance of the strict adherence to the terms of quarantine and mandatory testing of monkey sera for the presence of IgM antibodies to the measles virus that indicate the recent infection. The role of PI virus type 3 in the pathology of the respiratory tract in Anubis baboons has been established.

Published

2022

130. Genotype-Specific Measles Transmissibility: A Branching Process Analysis.

Author

Ackley, Sarah F, Hacker, Jill K, Enanoria, Wayne TA, Worden, Lee, Blumberg, Seth, Porco, Travis C, and Zipprich, Jennifer

Subjects

Vaccine Related, Infectious Diseases, Emerging Infectious Diseases, Infection, Good Health and Well Being, Adolescent, Binomial Distribution, California, Child, Disease Eradication, Disease Outbreaks, Genotype, Humans, Likelihood Functions, Measles, Measles Vaccine, Measles virus, Models, Theoretical, Species Specificity, Vaccination, branching process, mathematical model, disease elimination, subcritical diseases, Biological Sciences, Medical and Health Sciences, Microbiology

Abstract

Background:Substantial heterogeneity in measles outbreak sizes may be due to genotype-specific transmissibility. Using a branching process analysis, we characterize differences in measles transmission by estimating the association between genotype and the reproduction number R among postelimination California measles cases during 2000-2015 (400 cases, 165 outbreaks). Methods:Assuming a negative binomial secondary case distribution, we fit a branching process model to the distribution of outbreak sizes using maximum likelihood and estimated the reproduction number R for a multigenotype model. Results:Genotype B3 is found to be significantly more transmissible than other genotypes (P = .01) with an R of 0.64 (95% confidence interval [CI], .48-.71), while the R for all other genotypes combined is 0.43 (95% CI, .28-.54). This result is robust to excluding the 2014-2015 outbreak linked to Disneyland theme parks (referred to as "outbreak A" for conciseness and clarity) (P = .04) and modeling genotype as a random effect (P = .004 including outbreak A and P = .02 excluding outbreak A). This result was not accounted for by season of introduction, age of index case, or vaccination of the index case. The R for outbreaks with a school-aged index case is 0.69 (95% CI, .52-.78), while the R for outbreaks with a non-school-aged index case is 0.28 (95% CI, .19-.35), but this cannot account for differences between genotypes. Conclusions:Variability in measles transmissibility may have important implications for measles control; the vaccination threshold required for elimination may not be the same for all genotypes or age groups.

Published

2018

131. Upon Infection, Cellular WD Repeat-Containing Protein 5 (WDR5) Localizes to Cytoplasmic Inclusion Bodies and Enhances Measles Virus Replication

Author

Ma, Dzwokai, George, Cyril X, Nomburg, Jason L, Pfaller, Christian K, Cattaneo, Roberto, and Samuel, Charles E

Subjects

Medical Microbiology, Biomedical and Clinical Sciences, Biological Sciences, Emerging Infectious Diseases, Infectious Diseases, Genetics, Vaccine Related, 2.1 Biological and endogenous factors, 2.2 Factors relating to the physical environment, Aetiology, Infection, Good Health and Well Being, Cytoplasm, HeLa Cells, Histone-Lysine N-Methyltransferase, Humans, Inclusion Bodies, Viral, Intracellular Signaling Peptides and Proteins, Measles, Measles virus, RNA, Viral, Viral Proteins, Virus Replication, measles virus, innate immunity, inclusion body, WD repeat-containing protein, WDR5, Hela Cells, Agricultural and Veterinary Sciences, Medical and Health Sciences, Virology, Agricultural, veterinary and food sciences, Biological sciences, Biomedical and clinical sciences

Abstract

Replication of negative-strand RNA viruses occurs in association with discrete cytoplasmic foci called inclusion bodies. Whereas inclusion bodies represent a prominent subcellular structure induced by viral infection, our knowledge of the cellular protein components involved in inclusion body formation and function is limited. Using measles virus-infected HeLa cells, we found that the WD repeat-containing protein 5 (WDR5), a subunit of histone H3 lysine 4 methyltransferases, was selectively recruited to virus-induced inclusion bodies. Furthermore, WDR5 was found in complexes containing viral proteins associated with RNA replication. WDR5 was not detected with mitochondria, stress granules, or other known secretory or endocytic compartments of infected cells. WDR5 deficiency decreased both viral protein production and infectious virus yields. Interferon production was modestly increased in WDR5-deficient cells. Thus, our study identifies WDR5 as a novel viral inclusion body-associated cellular protein and suggests a role for WDR5 in promoting viral replication.IMPORTANCE Measles virus is a human pathogen that remains a global concern, with more than 100,000 measles-related deaths annually despite the availability of an effective vaccine. As measles continues to cause significant morbidity and mortality, understanding the virus-host interactions at the molecular level that affect virus replication efficiency is important for development and optimization of treatment procedures. Measles virus is an RNA virus that encodes six genes and replicates in the cytoplasm of infected cells in discrete cytoplasmic replication bodies, though little is known of the biochemical nature of these structures. Here, we show that the cellular protein WDR5 is enriched in the cytoplasmic viral replication factories and enhances virus growth. WDR5-containing protein complex includes viral proteins responsible for viral RNA replication. Thus, we have identified WDR5 as a host factor that enhances the replication of measles virus.

Published

2018

132. Preliminary seroprevalence study of neurotropic virus antibodies in Nodding syndrome

Author

Raquel Valdes Angues, Valerie S. Palmer, Rajarshi Mazumder, Caesar Okot, and Peter S. Spencer

Subjects

Nodding syndrome, Measles virus, Rubella virus, HSV-1, CMV, Epilepsy, Neurology. Diseases of the nervous system, RC346-429

Abstract

Nodding syndrome (NS) is a mostly East African pediatric epileptiform encephalopathy of unknown etiology that shares some clinical features with measles-associated subacute sclerosing panencephalitis (SSPE) and progressive rubella panencephalitis. Two independent studies in northern Uganda identified an association between NS and prior measles infection, while an earlier study in South Sudan found an inverse association. We report preliminary serologic analyses of antibodies to measles (MV), rubella (RV), HSV-1, and CMV viruses in northern Ugandan children with NS and Household (HC) and Community (CC) Controls. Only MV-positive titers were significantly different (3-fold and > 2-fold) in NS relative to HC and HC + CC, respectively. While these results are consistent with greater prior measles infection in Ugandan persons with NS, further studies are needed to determine whether Measles virus (MV) plays any role in the etiology and pathogenesis of NS. Resolving this issue will be invaluable for the thousands of children at risk for this devastating yet often neglected condition.

Published

2022

133. Corrigendum: Ocular effects caused by viral infections and corresponding vaccines: An overview of varicella zoster virus, measles virus, influenza viruses, hepatitis B virus, and SARS-CoV-2

Author

Simona Scalabrin, Alice Becco, Alessio Vitale, and Raffaele Nuzzi

Subjects

virus infection, vaccine, ocular effects, varicella zoster virus, measles virus, influenza viruses, Medicine (General), R5-920

Published

2022

134. Using Cystine Knot Proteins as a Novel Approach to Retarget Oncolytic Measles Virus

Author

Lal, Sangeet and Raffel, Corey

Subjects

Biological Sciences, Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Brain Cancer, Genetics, Rare Diseases, Brain Disorders, Gene Therapy, Cancer, Good Health and Well Being, cystine knot protein, integrin, knottin, measles virus, oncolytic virus

Abstract

Modified measles virus (MV) has effective oncolytic activity preclinically and is currently being investigated in clinical trials for various types of cancer. We investigated the use of cystine knot proteins (CKPs) to direct MV activity. CKPs are short polypeptides that bind their targets with high affinity. We used a CKP that binds αvβ3, αvβ5, and α5β1 integrins with single-digit nanomolar affinity to retarget MV to the integrins (MV-CKPint). MV-CKPint infected, replicated in, and killed human glioblastoma, medulloblastoma, diffuse intrinsic pontine glioma (DIPG), and melanoma cancer cells in vitro, all of which express the target integrins. MV-CKPint activity was competitively blocked by echistatin, an integrin binding peptide. When the CKP was cleaved from the viral H protein at an included protease site, virus activity was abrogated. When delivered intravenously (i.v.), the retargeted virus reached a subcutaneous glioblastoma tumor bed and produced cytopathic effects similar to that shown by intratumoral injection of the virus. Because these target integrins are overexpressed by tumor vascular endothelium, MV-CKPint may allow for effective therapy with i.v. injection. These results indicate for the first time that CKPs can be used to retarget MV for a receptor of choice. In addition, MV-CKPint provides proof of principle for the use of a CKP of interest to retarget any enveloped virus for both oncolytic and gene therapy purposes.

Published

2017

135. Nebulized fusion inhibitory peptide protects cynomolgus macaques from measles virus infection.

Author

Reynard, Olivier, Gonzalez, Claudia, Dumont, Claire, Iampietro, Mathieu, Ferren, Marion, Le Guellec, Sandrine, Laurie, Lajoie, Mathieu, Cyrille, Carpentier, Gabrielle, Roseau, Georges, Bovier, Francesca T., Zhu, Yun, Le Pennec, Deborah, Montharu, Jérome, Addetia, Amin, Greninger, Alexander L., Alabi, Christopher A., Brisebard, Elise, Moscona, Anne, and Vecellio, Laurent

Subjects

MEASLES virus, VIRUS diseases, PEPTIDES, MACAQUES, AIRBORNE infection, NEUROENDOCRINE cells

Abstract

Measles is the most contagious airborne viral infection and the leading cause of child death among vaccine-preventable diseases. We show here that aerosolized lipopeptide fusion inhibitor, derived from heptad-repeat regions of the measles virus (MeV) fusion protein, blocks respiratory MeV infection in a non-human primate model, the cynomolgus macaque. We use a custom-designed mesh nebulizer to ensure efficient aerosol delivery of peptide to the respiratory tract and demonstrate the absence of adverse effects and lung pathology in macaques. The nebulized peptide efficiently prevents MeV infection, resulting in the complete absence of MeV RNA, MeV-infected cells, and MeV-specific humoral responses in treated animals. This strategy provides an additional means to fight against respiratory infection in non-vaccinated people, that can be readily translated to human trials. It presents a proof-of-concept for the aerosol delivery of fusion inhibitory peptides to protect against measles and other airborne viruses, including SARS-CoV-2, in case of high-risk exposure. Despite the availability of a safe and effective vaccine, measles remains the leading cause of child death among vaccine-preventable diseases. In this work, authors utilised a cynomolgus macaque model of infection, and a mesh nebuliser administration approach, to show efficacy of their aerosolized lipopeptide fusion inhibitor against the measles virus. [ABSTRACT FROM AUTHOR]

Published

2022

136. Surface‐Acoustic‐Wave (SAW) Induced Mixing Enhances the Detection of Viruses: Application to Measles Sensing in Whole Human Saliva with a SAW Lab‐On‐a‐Chip.

Author

Agostini, Matteo, Lunardelli, Francesco, Gagliardi, Mariacristina, Miranda, Alessio, Lamanna, Leonardo, Luminare, Antonella Giuliana, Gambineri, Francesca, Lai, Michele, Pistello, Mauro, and Cecchini, Marco

Subjects

*SARS-CoV-2 Omicron variant, *LABS on a chip, *SALIVA, *MEASLES virus, *SENSES, *VACCINE effectiveness, *ACOUSTIC surface waves, *AIRBORNE infection

Abstract

Measles is one of the most infectious airborne viruses worldwide. With a basic reproduction rate between 12–18, this virus is six times more infectious than the SARS‐CoV‐2 Alpha variant and similar to the SARS‐CoV‐2 Omicron variant. Even though a cheap and effective vaccine is available, measles is still common in developing countries. To date, sporadic outbreaks are also reported in developed countries, primarily due to non‐vaccinated people. This work presents a point‐of‐care (POC) biosensing device capable of detecting measles virions (MV) in human saliva. The device is a surface‐acoustic‐wave (SAW) based lab‐on‐a‐chip (LOC), smaller than a €1‐cent coin, in which SAWs are used both for sensing and fluid recirculation. The biosensing detection performance of this system is tested and device sensitivity and selectivity are assessed. The SAW‐LOC with MV loaded in healthy, whole human saliva is finally validated. The experimental results also highlight a crucial aspect of the biosensing process: the interactions between probing and target species during incubation with or without fluid mixing. The presented findings are promising for realizing a POC platform for measles diagnosis and may serve as a guideline for designing new microfluidics‐based biosensing systems. [ABSTRACT FROM AUTHOR]

Published

2022

137. Versatility of live-attenuated measles viruses as platform technology for recombinant vaccines.

Author

Ebenig, Aileen, Lange, Mona V., and Mühlebach, Michael D.

Subjects

MEASLES virus, CLINICAL trials, VETERINARY medicine, RECOMBINANT DNA, VIROIDS, VIRAL genomes

Abstract

Live-attenuated measles virus (MeV) has been extraordinarily effective in preventing measles infections and their often deadly sequelae, accompanied by remarkable safety and stability since their first licensing in 1963. The advent of recombinant DNA technologies, combined with systems to generate infectious negative-strand RNA viruses on the basis of viral genomes encoded on plasmid DNA in the 1990s, paved the way to generate recombinant, vaccine strain-derived MeVs. These live-attenuated vaccine constructs can encode and express additional foreign antigens during transient virus replication following immunization. Effective humoral and cellular immune responses are induced not only against the MeV vector, but also against the foreign antigen cargo in immunized individuals, which can protect against the associated pathogen. This review aims to present an overview of the versatility of this vaccine vector as platform technology to target various diseases, as well as current research and developmental stages, with one vaccine candidate ready to enter phase III clinical trials to gain marketing authorization, MV-CHIK. [ABSTRACT FROM AUTHOR]

Published

2022

138. Adapter-Mediated Transduction with Lentiviral Vectors: A Novel Tool for Cell-Type-Specific Gene Transfer.

Author

Cordes, Nicole, Winter, Nora, Kolbe, Carolin, Kotter, Bettina, Mittelstaet, Joerg, Assenmacher, Mario, Cathomen, Toni, Kaiser, Andrew, and Schaser, Thomas

Subjects

*GENETIC transformation, *GENETIC transduction, *CHIMERIC antigen receptors, *MEASLES virus, *GENE therapy, *IMMUNOGLOBULINS

Abstract

Selective gene delivery to a cell type of interest utilizing targeted lentiviral vectors (LVs) is an efficient and safe strategy for cell and gene therapy applications, including chimeric antigen receptor (CAR)-T cell therapy. LVs pseudotyped with measles virus envelope proteins (MV-LVs) have been retargeted by ablating binding to natural receptors while fusing to a single-chain antibody specific for the antigen of choice. However, the broad application of MV-LVs is hampered by the laborious LV engineering required for every new target. Here, we report the first versatile targeting system for MV-LVs that solely requires mixing with biotinylated adapter molecules to enable selective gene transfer. The analysis of the selectivity in mixed cell populations revealed transduction efficiencies below the detection limit in the absence of an adapter and up to 5000-fold on-to-off-target ratios. Flexibility was confirmed by transducing cell lines and primary cells applying seven different adapter specificities in total. Furthermore, adapter mixtures were applied to generate CAR-T cells with varying CD4/CD8-ratios in a single transduction step. In summary, a selective and flexible targeting system was established that may serve to improve the safety and efficacy of cellular therapies. Compatibility with a wide range of readily available biotinylated molecules provides an ideal technology for a variety of applications. [ABSTRACT FROM AUTHOR]

Published

2022

139. Assessment of Humoral Immunity to Measles Virus in Cancer Survivor Children after Chemotherapy: A Case-Control Study.

Author

Abdelaziz, Tarek A., Atfy, Mervat, Risha, Amr I., Gohary, Mahmoud M., and Baz, Eman Gamal

Subjects

*MEASLES virus, *HUMORAL immunity, *CANCER survivors, *ONCOGENIC viruses, *CHILDHOOD cancer

Abstract

This case-control study was conducted to determine the antibody titer against the measles virus in childhood cancer survivors' post-chemotherapy treatment to determine the patient's immune status against the measles virus. We enrolled 38 children who were in complete remission and whose treatments had been stopped for at least 3 months and 38 age and sex-matched healthy controls. We analyzed the medical records of the cancer survivors, and each study participant's serum sample was analyzed by the ELISA method to determine the antibody titer against measles. The cancer survivors had significantly lower measles antibody titers than the healthy control participants, and 78.9% of cancer survivors were unprotected (seronegative) compared to 7.9% in healthy controls. After multivariate analysis, there was no statistically significant factor associated with loss of protective humoral immunity against measles. These results underline the need for post-chemotherapy measles antibody testing and revaccination of seronegative survivors. [ABSTRACT FROM AUTHOR]

Published

2022

140. Detection of measles virus in Bulgaria from 2012 to 2018.

Author

Krumova, Stefka, Santibanez, Sabine, Andonova, Ivona, Stefanova, Radostina, Mankertz, Annette, and Kantardjiev, Todor

Subjects

*MEASLES virus, *VACCINATION coverage, *VIRUS identification, *MEASLES, *VACCINATION

Abstract

Aim To determine the circulation patterns of measles virus in Bulgaria from 2012 to 2018 after a large measles outbreak in the country (2009-2011). Methods Three types of clinical material were collected: serum samples, urine samples, and nasal swabs. Enzymelinked immunosorbent assay (ELISA) was used to detect specific viral immunoglobulin (Ig) M/IgG antibodies. Viral RNA was extracted from all urine and nasal swabs. Results In the investigated period, 102 patients were confirmed to have measles (age range: two months to 55 years). A total of 101 samples (99%) were measles-IgM positive. Most of them were detected in 2017 (73%, 74/101), when a measles outbreak in the country was reported. The majority of patients were unvaccinated children aged under 13 months. Out of 101 measles serum samples con- firmed by ELISA, 18 (20.45%) were measles-IgG positive and 15 (17.05%) were borderline. Thirty-three positive PCR products were sequenced and genotyped. In 2013, 2016, 2017, and 2018, three different measles viral genotypes were detected: D8, H1, and B3. Most patients were unvaccinated or insufficiently vaccinated. Conclusion Preventive measures are indispensable to limit the infection in different regions of Bulgaria and its spread to other countries. As vaccination coverage against measles and other vaccine-preventable infections, including SARS-Co2, is low, it is necessary to perform molecular identification of viruses to monitor their circulation and pathogenicity. [ABSTRACT FROM AUTHOR]

Published

2022

141. tidy tree: A New Layout for Phylogenetic Trees.

Author

Penel, Simon and Vienne, Damien M de

Subjects

MEASLES virus, INSPECTION & review, TREES

Abstract

Many layouts exist for visualizing phylogenetic trees, allowing to display the same information (evolutionary relationships) in different ways. For large phylogenies, the choice of the layout is a key element, because the printable area is limited, and because interactive on-screen visualizers can lead to unreadable phylogenetic relationships at high zoom levels. A visual inspection of available layouts for rooted trees reveals large empty areas that one may want to fill in order to use less drawing space and eventually gain readability. This can be achieved by using the nonlayered tidy tree layout algorithm that was proposed earlier but was never used in a phylogenetic context so far. Here, we present its implementation, and we demonstrate its advantages on simulated and biological data (the measles virus phylogeny). Our results call for the integration of this new layout in phylogenetic software. We implemented the nonlayered tidy tree layout in R language as a stand-alone function (available at https://github.com/damiendevienne/non-layered-tidy-trees), as an option in the tree plotting function of the R package ape , and in the recent tool for visualizing reconciled phylogenetic trees thirdkind (https://github.com/simonpenel/thirdkind/wiki). [ABSTRACT FROM AUTHOR]

Published

2022

142. Measles epidemiology and viral nucleoprotein gene evolution in Shandong Province, China.

Author

Yuan, Chuang, Wang, Cheng, Zhu, Kongfu, Li, Song, and Miao, Zengmin

Subjects

VIRAL genes, MEASLES, MOLECULAR evolution, RUBELLA, EPIDEMIOLOGY, MEASLES virus, HERD immunity, GENOTYPE-environment interaction

Abstract

Measles, caused by measles virus (MeV), has not been eradicated in many regions and countries, threatening human health. Thus, it is beneficial for measles elimination to understand measles epidemiology and molecular evolution of key viral genes, such as nucleoprotein (N) gene. Based on public data, measles epidemiological information and MeV N gene sequences reported in Shandong Province, China were comprehensively collected and systematically analyzed. The results showed a positive correlation between population density and measles incidence (r = +0.31), while negative correlations were found between measles incidence and healthcare condition (r = −0.21) as well as average routine vaccination rate (r = −0.11). Additionally, the predominant lineage of MeV in Shandong was formed by genotype H1 strains, and the time of the most recent common ancestor of the N gene of MeV genotype H1 in Shandong traced back to 1987 (95% highest posterior density, 1984–1990) with relatively rapid evolution (mean rate, 1.267 × 10−3 substitutions/site/year). The genetic diversity of MeV N gene increased with the substantial emergence of major divergent clades of genotype H1 before 2005 and then remained relatively high and stable. In summary, these findings provided a significant insight into the measles elimination. [ABSTRACT FROM AUTHOR]

Published

2022

143. Development and characterization of mouse monoclonal antibodies to canine morbillivirus.

Author

Fayaz, Arfa, Rajak, Kaushal Kishor, Kumar, Ashok, Karki, Monu, Kiran, Rai, Vishal, Bhatt, Mukesh, and Singh, Rabindra Prasad

Subjects

*MONOCLONAL antibodies, *MORBILLIVIRUSES, *MEASLES virus, *CANINE distemper virus, *MICE

Abstract

Canine morbillivirus is a highly contagious multi-host pathogen with high morbidity and mortality. Timely diagnosis is of utmost importance to effectively control such a dreadful disease. Monoclonal antibodies (mAbs) serve as a high throughput diagnostics and applied tools for research and development (R&D). In the present study, a total of six mouse monoclonal antibodies were developed. All the mAbs generated belonged to IgG class. Of the six mAbs, two of them, namely CD-2F8 and CD-3D8 were directed against the nucleocapsid protein of CDV as determined in western blotting. The reactivity of all the mAbs was checked in indirect-ELISA and cell-ELISA using different morbilliviruses. The mAbs could broadly be categorized as; CDV specific (CD-3D8 and CD-2F8), cross-reactive to PPR virus (CD-AB3 and CD-4D6) and cross-reactive to both PPR virus and measles virus (CD-5D10 and CD-6E5). The characterized mAbs were used for antigenic profiling of CDV, PPR virus and measles virus. Based on the reactivity pattern; a close antigenic relationship was found among CDV and PPR virus as compared to measles virus. A pair of CDV specific mAbs namely CD-2F8 and CD-3D8 were identified which did not cross-react with measles and PPR viruses and thus could be used for diagnostic applications. [ABSTRACT FROM AUTHOR]

Published

2022

144. Diagnostic reference value of antibody levels measured using enzyme immunoassay for subacute sclerosing panencephalitis.

Author

Kume, Yohei, Hashimoto, Koichi, Iida, Keiji, Maeda, Hajime, Miyazaki, Kyohei, Ono, Takashi, Chishiki, Mina, Suzuki, Yuichi, Go, Hayato, Suyama, Kazuhide, and Hosoya, Mitsuaki

Subjects

ENZYME-linked immunosorbent assay, REFERENCE values, CEREBROSPINAL fluid examination, MEASLES virus, ANTIBODY titer, MEASLES, CEREBROSPINAL fluid, IMMUNOGLOBULINS

Abstract

High measles‐specific antibody titers in the cerebrospinal fluid (CSF) have important diagnostic significance for subacute sclerosing panencephalitis (SSPE), a progressive neurological disorder caused by measles virus variants. However, the diagnostic reference value of antibody levels and the usefulness of the CSF/serum ratio measured using enzyme immunoassays (EIAs) for SSPE diagnosis remain unclear. To facilitate SSPE diagnosis using EIAs, measles immunoglobulin G (IgG) titers in the CSF and serum of patients with and without SSPE were measured and their CSF/serum antibody ratios evaluated. Serum and CSF antibody levels were compared among three patients with SSPE (59 paired samples), 37 non‐SSPE patients, and 2618 patients of unknown backgrounds. Of the 59 paired samples from three patients with SSPE, 56 paired samples (94.9%) showed CSF measles IgG levels ≥0.5 IU/mL and a CSF/serum ratio ≥0.05, whereas non‐SSPE cases showed CSF measles IgG levels <0.1 IU/mL and a CSF/serum ratio <0.03. Of the 2618 CSF samples with unknown backgrounds, 951 showed measurable IgG levels with EIA, with a CSF/serum ratio peak of 0.005–0.02, with a 90th percentile of 0.05. Assuming the SSPE criteria as CSF measles IgG ≥0.5 IU/mL and a CSF/serum ratio ≥0.05, only 20 samples (0.8%) with unknown backgrounds were categorized as having SSPE. Conversely, assuming the non‐SSPE criteria as CSF measles IgG <0.1 IU/mL and a CSF/serum ratio <0.03, 2403 samples (92%) with unknown backgrounds were categorized as not having SSPE. In conclusion, high CSF/serum ratios (≥0.05) and high measles CSF IgG levels (≥0.5 IU/mL) may be useful for diagnosing SSPE. [ABSTRACT FROM AUTHOR]

Published

2022

145. Measles Virus and Subacute Sclerosing Panencephalitis.

Author

Krumova, Stefka, Andonova, Ivona, Stefanova, Radostina, Nenkova, Galina, and Genova-Kalou, Petia

Subjects

RUBELLA, MEASLES virus, YOUNG adults, PARASITIC diseases, CEREBROSPINAL fluid, SYMPTOMS, CEREBROSPINAL fluid examination

Abstract

Background: Subacute Sclerosing Panencephalitis (SSPE) mainly affects children and young people. It is a rare, chronic progressive degenerative form of cerebral inflammation with various infectious noxa, which develops for years after a primary, uncomplicated infection, and the highest percentage can be caused by measles virus and in rare cases by rubella. The aim of the present study is to investigate in the laboratory the role of measles virus in the development of neurological symptoms and diseases of the CNS. Methods: A total of 46 clinical materials (23 sera samples and 23 CSF) obtained from 23 patients with neurological symptoms and diagnoses: "SSPE" (in 10 patients) and "Encephalitis" (in 13 patients), in the period January 2011 - December 2020 were tested in the National Reference Laboratory (NRL) "Measles, mumps and rubella" at National Centre of Infectious and Parasitic Diseases (NCIPD), Sofia, Bulgaria. Serological (indirect ELISA test for the detection of specific measles IgG/IgM antibodies in serum samples and cerebrospinal fluid) and molecular (RT-PCR for the demonstration of viral RNA) methods were used. Results: The study was performed by parallel testing of serum samples and CSF from each patient. Positive results for measles IgG antibodies in sera were found in 21 patients. Presence of measles IgG antibodies in CSF was demonstrated in four children with diagnosis SSPE (two children at 4 years, one child at 4 years and 6 months, and one at 11 years old). All children with positive laboratory results for SSPE had evidence of MeV infection before 2 years of age. The patients with SSPE had high antibody titers (CSF > 230 U/mL) in their CSF. Patients with positive anti-Measles IgG in the CSF were also found to have positive results for protective measles IgG in the serum samples and their IgG titers were nearly twice as high compared to other patients' sera. The presence of specific measles IgM antibodies was not demonstrated in the tested specimens. RT-PCR test was performed for all samples, and the presence of viral RNA was not detected. Conclusions: The measles infection can be a reason for developing serious complications affecting CNS in all age groups. SSPE itself is extremely difficult to diagnose, which is why laboratory confirmation of any clinical case is a necessary condition for effective disease surveillance. [ABSTRACT FROM AUTHOR]

Published

2022

146. Correlating IgG Levels with Neutralising Antibody Levels to Indicate Clinical Protection in Healthcare Workers at Risk during a Measles Outbreak.

Author

Hu, Siyuan, Logan, Nicola, Coleman, Sarah, Evans, Cariad, Willett, Brian J., and Hosie, Margaret J.

Subjects

*MEDICAL personnel, *MEASLES, *VESICULAR stomatitis, *ANTIBODY titer, *MEASLES virus, *IMMUNOGLOBULIN G

Abstract

The rapid transmission of measles poses a great challenge for measles elimination. Thus, rapid testing is required to screen the health status in the population during measles outbreaks. A pseudotype-based virus neutralisation assay was used to measure neutralising antibody titres in serum samples collected from healthcare workers in Sheffield during the measles outbreak in 2016. Vesicular stomatitis virus (VSV) pseudotypes bearing the haemagglutinin and fusion glycoproteins of measles virus (MeV) and carrying a luciferase marker gene were prepared; the neutralising antibody titre was defined as the dilution resulting in 90% reduction in luciferase activity. Spearman's correlation coefficients between IgG titres and neutralising antibody levels ranged from 0.40 to 0.55 (p < 0.05) or from 0.71 to 0.79 (p < 0.0001) when the IgG titres were obtained using different testing kits. In addition, the currently used vaccine was observed to cross-neutralise most circulating MeV genotypes. However, the percentage of individuals being "well-protected" was lower than 95%, the target rate of vaccination coverage to eliminate measles. These results demonstrate that the level of clinical protection against measles in individuals could be inferred by IgG titre, as long as a precise correlation has been established between IgG testing and neutralisation assay; moreover, maintaining a high vaccination coverage rate is still necessary for measles elimination. [ABSTRACT FROM AUTHOR]

Published

2022

147. Upregulation of viral RNA polymerase activity promotes adaptation of SSPE virus to neuronal cells.

Author

Sakamoto, Kento, Satoh, Yuto, Takahashi, Ken-ichi, Wakimoto, Hiroshi, Kitagawa, Yoshinori, Gotoh, Bin, Ayata, Minoru, and Itoh, Masae

Subjects

*RNA replicase, *MEASLES virus, *VIRAL mutation, *NEURODEGENERATION, *PROTEIN expression

Abstract

Subacute sclerosing panencephalitis (SSPE) is a rare progressive neurodegenerative disease caused by measles virus variants (SSPE viruses) that results in eventual death. Amino acid substitution(s) in the viral fusion (F) protein are key for viral propagation in the brain in a cell-to-cell manner, a specific trait of SSPE viruses, leading to neuropathogenicity. In this study, we passaged an SSPE virus in cultured human neuronal cells and isolated an adapted virus that propagated more efficiently in neuronal cells and exhibited increased cell-to-cell fusion. Contrary to our expectation, the virus harbored mutations in the large protein, a viral RNA-dependent RNA polymerase, and in the phosphoprotein, its co-factor, rather than in the F protein. Our results imply that upregulated RNA polymerase activity, which increases F protein expression and cell-to-cell fusion, could be a viral factor that provides a growth advantage and contributes to the adaptation of SSPE viruses to neuronal cells. • An SSPE virus further adapted to neuronal cells by enhancing cell-to-cell infection. • Increase of fusogenicity of the F protein was not involved in the adaptation. • Upregulation of viral RNA polymerase (RdRp) promoted cell-to-cell infection. • Viral RdRp is a factor to cause adaptation of SSPE virus in neuronal cells. [ABSTRACT FROM AUTHOR]

Published

2022

148. Screening of candidate genes associated with high titer production of oncolytic measles virus based on systems biology approach.

Author

Rastegarpanah, Malihe, Azadmanesh, Kayhan, Negahdari, Babak, Asgari, Yazdan, and Mazloomi, Mohammadali

Abstract

The number of viral particles required for oncolytic activity of measles virus (MV) can be more than a million times greater than the reported amount for vaccination. The aim of the current study is to find potential genes and signaling pathways that may be involved in the high-titer production of MV. In this study, a systems biology approach was considered including collection of gene expression profiles from the Gene Expression Omnibus (GEO) database, obtaining differentially expressed genes (DEGs), performing gene ontology, functional enrichment analyses, and topological analyses on the protein–protein interaction (PPI) network. Then, to validate the in-silico data, total RNA was isolated from five cell lines, and full-length cDNA from template RNA was synthesized. Subsequently, quantitative reverse transcription-PCR (RT-qPCR) was employed. We identified five hub genes, including RAC1, HSP90AA1, DNM1, LTBP1, and FSTL1 associated with the enhancement in MV titer. Pathway analysis indicated enrichment in PI3K-Akt signaling pathway, axon guidance, proteoglycans in cancer, regulation of actin cytoskeleton, focal adhesion, and calcium signaling pathways. Upon verification by RT-qPCR, the relative expression of candidate genes was generally consistent with our bioinformatics analysis. Hub genes and signaling pathways may be involved in understanding the pathological mechanisms by which measles virus manipulates host factors in order to facilitate its replication. RAC1, HSP90AA1, DNM1, LTBP1, and FSTL1 genes, in combination with genetic engineering techniques, will allow the direct design of high-throughput cell lines to answer the required amounts for the oncolytic activity of MV. [ABSTRACT FROM AUTHOR]

Published

2022

149. An Unconventional Case Study of Neoadjuvant Oncolytic Virotherapy for Recurrent Breast Cancer.

Author

Forčić D, Mršić K, Perić-Balja M, Kurtović T, Ramić S, Silovski T, Pedišić I, Milas I, and Halassy B

Abstract

Intratumoural oncolytic virotherapy may have promise as a means to debulk and downstage inoperable tumours in preparation for successful surgery. Here, we describe the unique case of a 50-year-old self-experimenting female virologist with locally recurrent muscle-invasive breast cancer who was able to proceed to simple, non-invasive tumour resection after receiving multiple intratumoural injections of research-grade virus preparations, which first included an Edmonston-Zagreb measles vaccine strain (MeV) and then a vesicular stomatitis virus Indiana strain (VSV), both prepared in her own laboratory. The intratumoural virus therapy was well tolerated. Frequent imaging studies and regular clinical observations documenting size, consistency and mobility of the injected tumour demonstrate that both the MeV- and VSV-containing parts of the protocol contributed to the overall favourable response. Two months after the start of the virus injections, the shrunken tumour was no longer invading the skin or underlying muscle and was surgically excised. The excised tumour showed strong lymphocytic infiltration, with an increase in CD20-positive B cells, CD8-positive T cells and macrophages. PD-L1 expression was detected in contrast to the baseline PD-L1-negative phenotype. The patient completed one-year trastuzumab adjuvant therapy and remains well and recurrence-free 45 months post-surgery. Although an isolated case, it encourages consideration of oncolytic virotherapy as a neoadjuvant treatment modality.

Published

2024

150. Structural basis of paramyxo- and pneumovirus polymerase inhibition by non-nucleoside small-molecule antivirals.

Author

Wolf JD, Sirrine MR, Cox RM, and Plemper RK

Abstract

Small-molecule antivirals can be used as chemical probes to stabilize transitory conformational stages of viral target proteins, facilitating structural analyses. Here, we evaluate allosteric pneumo- and paramyxovirus polymerase inhibitors that have the potential to serve as chemical probes and aid the structural characterization of short-lived intermediate conformations of the polymerase complex. Of multiple inhibitor classes evaluated, we discuss in-depth distinct scaffolds that were selected based on well-understood structure-activity relationships, insight into resistance profiles, biochemical characterization of the mechanism of action, and photoaffinity-based target mapping. Each class is thought to block structural rearrangements of polymerase domains albeit target sites and docking poses are distinct. This review highlights validated druggable targets in the paramyxo- and pneumovirus polymerase proteins and discusses discrete structural stages of the polymerase complexes required for bioactivity.

Published

2024