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Drugs Jun 2022Human monkeypox is a zoonotic orthopoxvirus with presentation similar to smallpox. Monkeypox is transmitted incidentally to humans when they encounter infected animals....
Human monkeypox is a zoonotic orthopoxvirus with presentation similar to smallpox. Monkeypox is transmitted incidentally to humans when they encounter infected animals. Reports have shown that the virus can also be transmitted through direct contact (sexual or skin-to-skin), respiratory droplets, and via fomites such as towels and bedding. Multiple medical countermeasures are stockpiled for orthopoxviruses such as monkeypox. Two vaccines are currently available, JYNNEOS (live, replication incompetent vaccinia virus) and ACAM2000 (live, replication competent vaccinia virus). While most cases of monkeypox will have mild and self-limited disease, with supportive care being typically sufficient, antivirals (e.g. tecovirimat, brincidofovir, cidofovir) and vaccinia immune globulin intravenous (VIGIV) are available as treatments. Antivirals can be considered in severe disease, immunocompromised patients, pediatrics, pregnant and breastfeeding women, complicated lesions, and when lesions appear near the mouth, eyes, and genitals. The purpose of this short review is to describe each of these countermeasures.
Topics: Animals; Antiviral Agents; Child; Cidofovir; Female; Humans; Mpox (monkeypox); Pregnancy; Smallpox; Vaccinia virus
PubMed: 35763248
DOI: 10.1007/s40265-022-01742-y -
Viruses Nov 2020Monkeypox is a zoonotic disease caused by monkeypox virus (MPXV), which is a member of orthopoxvirus genus. The reemergence of MPXV in 2017 (at Bayelsa state) after 39... (Review)
Review
Monkeypox is a zoonotic disease caused by monkeypox virus (MPXV), which is a member of orthopoxvirus genus. The reemergence of MPXV in 2017 (at Bayelsa state) after 39 years of no reported case in Nigeria, and the export of travelers' monkeypox (MPX) from Nigeria to other parts of the world, in 2018 and 2019, respectively, have raised concern that MPXV may have emerged to occupy the ecological and immunological niche vacated by smallpox virus. This review X-rays the current state of knowledge pertaining the infection biology, epidemiology, and evolution of MPXV in Nigeria and worldwide, especially with regard to the human, cellular, and viral factors that modulate the virus transmission dynamics, infection, and its maintenance in nature. This paper also elucidates the role of recombination, gene loss and gene gain in MPXV evolution, chronicles the role of signaling in MPXV infection, and reviews the current therapeutic options available for the treatment and prevention of MPX. Additionally, genome-wide phylogenetic analysis was undertaken, and we show that MPXV isolates from recent 2017 outbreak in Nigeria were monophyletic with the isolate exported to Israel from Nigeria but do not share the most recent common ancestor with isolates obtained from earlier outbreaks, in 1971 and 1978, respectively. Finally, the review highlighted gaps in knowledge particularly the non-identification of a definitive reservoir host animal for MPXV and proposed future research endeavors to address the unresolved questions.
Topics: Animals; DNA, Viral; Evolution, Molecular; Humans; Mice; Mpox (monkeypox); Monkeypox virus; Nigeria; Phylogeny; Recombination, Genetic; Viral Zoonoses
PubMed: 33167496
DOI: 10.3390/v12111257 -
Journal of Medical Virology Jan 2023Mpox is a zoonotic disease caused by monkeypox virus (MPXV) from the Orthopoxvirus genus. Unprecedented transmission events have led to more than 70 000 cases reported... (Review)
Review
Mpox is a zoonotic disease caused by monkeypox virus (MPXV) from the Orthopoxvirus genus. Unprecedented transmission events have led to more than 70 000 cases reported worldwide by October 2022. The change in mpox epidemiology has raised concerns of its ability to establish endemicity beyond its traditional geographical locations. In this review, we discuss the current understanding of mpox virology and viral dynamics that are relevant to mpox diagnostics. A synopsis of the traditional and emerging laboratory technologies useful for MPXV detection and in guiding "elimination" strategies is outlined in this review. Importantly, development in MPXV genomics has rapidly advanced our understanding of the role of viral evolution and adaptation in the current outbreak.
Topics: Animals; Humans; Mpox (monkeypox); Monkeypox virus; Zoonoses; Orthopoxvirus; Disease Outbreaks
PubMed: 36571266
DOI: 10.1002/jmv.28429 -
Immunological Reviews Oct 2008Monkeypox is a disease that is endemic in Central and Western Africa. However, in 2003, there was an outbreak in the United States, representing the first documented... (Review)
Review
Monkeypox is a disease that is endemic in Central and Western Africa. However, in 2003, there was an outbreak in the United States, representing the first documented monkeypox cases in the Western hemisphere. Although monkeypox virus is less fatal and not as transmissible as variola virus, the causative agent of smallpox, there is concern that monkeypox virus could become a more efficient human pathogen. The reason for this may lie in the virus' genetic makeup, ecological changes, changes in host behavior, and the fact that with the eradication of variola virus, routine smallpox vaccination is no longer carried out. In this review, we focus on the viral proteins that are predicted to modulate the host immune response and compare the genome of monkeypox virus with the genomes of variola virus and the vaccinia virus, the orthopoxvirus that represented the smallpox vaccine. There are differences found in several of these immune-modulating genes including genes that express proteins that affect cytokines such as interleukin-1, tumor necrosis factor, and interferon. There are also differences in genes that code for virulence factors and host range proteins. Genetic differences likely also explain the differences in virulence between two strains of monkeypox virus found in two different regions of Africa. In the current setting of limited smallpox vaccination and little orthopoxvirus immunity in parts of the world, monkeypox could become a more efficient human pathogen under the right circumstances.
Topics: Animals; Humans; Mpox (monkeypox); Monkeypox virus; Phylogeny; Vaccinia virus; Variola virus; Viral Proteins
PubMed: 18837778
DOI: 10.1111/j.1600-065X.2008.00691.x -
Virology Jun 2002Monkeypox virus (MPV) belongs to the orthopoxvirus genus of the family Poxviridae, is endemic in parts of Africa, and causes a human disease that resembles smallpox. The...
Monkeypox virus (MPV) belongs to the orthopoxvirus genus of the family Poxviridae, is endemic in parts of Africa, and causes a human disease that resembles smallpox. The 196,858-bp MPV genome was analyzed with regard to structural features and open reading frames. Each end of the genome contains an identical but oppositely oriented 6379-bp terminal inverted repetition, which similar to that of other orthopoxviruses, includes a putative telomere resolution sequence and short tandem repeats. Computer-assisted analysis was used to identify 190 open reading frames containing >/=60 amino acid residues. Of these, four were present within the inverted terminal repetition. MPV contained the known essential orthopoxvirus genes but only a subset of the putative immunomodulatory and host range genes. Sequence comparisons confirmed the assignment of MPV as a distinct species of orthopoxvirus that is not a direct ancestor or a direct descendent of variola virus, the causative agent of smallpox.
Topics: Animals; Base Sequence; DNA, Viral; Genome, Viral; Humans; Molecular Sequence Data; Monkeypox virus; Open Reading Frames; Phylogeny; Sequence Analysis, DNA; Telomere; Viral Proteins
PubMed: 12083817
DOI: 10.1006/viro.2002.1446 -
Journal of Clinical Virology : the... Jul 2006Human monkeypox, a zoonotic disease, was first reported outside of Africa during the 2003 US outbreak.
BACKGROUND
Human monkeypox, a zoonotic disease, was first reported outside of Africa during the 2003 US outbreak.
OBJECTIVES
We present two real-time PCR assays critical for laboratory diagnosis of monkeypox during the 2003 US outbreak.
STUDY DESIGN
A TaqMan-based assay (E9L-NVAR) targets the orthopoxvirus DNA polymerase gene and detects Eurasian orthopoxviruses other than Variola. A hybridization assay, utilizing a MGB Eclipsetrade mark (Epoch Biosciences) probe, targets an envelope protein gene (B6R) and specifically detects monkeypox virus (MPXV). Assays were validated using coded orthopoxvirus DNA samples and used to evaluate lesion samples from five confirmed US monkeypox cases.
RESULTS
E9L-NVAR did not detect variola (48 strains), North American orthopoxviruses (2), or DNA derived from non-poxviral rash illnesses. The assay reproducibly identified various concentrations of 13 Eurasian orthopoxvirus strains and was sensitive to 12.5 vaccinia genomes. The B6R assay recognized 15 different MPXV strains, while other orthopoxvirus (9) and bacteria (15) strains did not cross-react. Of the 13 human samples tested from confirmed cases, both assays identified 100% as containing MPXV DNA.
CONCLUSIONS
E9L-NVAR and B6R assays demonstrate 100% specificity for non-variola Eurasian orthopoxvirus and MPXV, respectively. Using two discrete viral gene targets, these assays together provide a reliable and sensitive method for quickly confirming monkeypox infections.
Topics: Adult; Animals; Base Sequence; Child; Child, Preschool; DNA, Viral; DNA-Directed DNA Polymerase; Disease Outbreaks; Female; Humans; Infant; Male; Molecular Sequence Data; Mpox (monkeypox); Monkeypox virus; Polymerase Chain Reaction; Reagent Kits, Diagnostic; Sensitivity and Specificity; Taq Polymerase; United States; Viral Envelope Proteins
PubMed: 16731033
DOI: 10.1016/j.jcv.2006.03.012 -
Emerging Microbes & Infections Dec 2023The re-emerging mpox (formerly monkeypox) virus (MPXV), a member of genus together with variola virus (VARV) and vaccinia virus (VACV), has led to public health...
The re-emerging mpox (formerly monkeypox) virus (MPXV), a member of genus together with variola virus (VARV) and vaccinia virus (VACV), has led to public health emergency of international concern since July 2022. Inspired by the unprecedent success of coronavirus disease 2019 (COVID-19) mRNA vaccines, the development of a safe and effective mRNA vaccine against MPXV is of high priority. Based on our established lipid nanoparticle (LNP)-encapsulated mRNA vaccine platform, we rationally constructed and prepared a panel of multicomponent MPXV vaccine candidates encoding different combinations of viral antigens including M1R, E8L, A29L, A35R, and B6R. and characterization demonstrated that two immunizations of all mRNA vaccine candidates elicit a robust antibody response as well as antigen-specific Th1-biased cellular response in mice. Importantly, the penta- and tetra-component vaccine candidates AR-MPXV5 and AR-MPXV4a showed superior capability of inducing neutralizing antibodies as well as of protecting from VACV challenge in mice. Our study provides critical insights to understand the protection mechanism of MPXV infection and direct evidence supporting further clinical development of these multicomponent mRNA vaccine candidates.
Topics: Animals; Mice; Mpox (monkeypox); COVID-19; Vaccines, Synthetic; Vaccinia virus; Monkeypox virus; COVID-19 Vaccines; Antibodies, Viral; mRNA Vaccines
PubMed: 36947428
DOI: 10.1080/22221751.2023.2192815 -
Cell Oct 2016Monkeypox (MPXV) and cowpox (CPXV) are emerging agents that cause severe human infections on an intermittent basis, and variola virus (VARV) has potential for use as an...
Monkeypox (MPXV) and cowpox (CPXV) are emerging agents that cause severe human infections on an intermittent basis, and variola virus (VARV) has potential for use as an agent of bioterror. Vaccinia immune globulin (VIG) has been used therapeutically to treat severe orthopoxvirus infections but is in short supply. We generated a large panel of orthopoxvirus-specific human monoclonal antibodies (Abs) from immune subjects to investigate the molecular basis of broadly neutralizing antibody responses for diverse orthopoxviruses. Detailed analysis revealed the principal neutralizing antibody specificities that are cross-reactive for VACV, CPXV, MPXV, and VARV and that are determinants of protection in murine challenge models. Optimal protection following respiratory or systemic infection required a mixture of Abs that targeted several membrane proteins, including proteins on enveloped and mature virion forms of virus. This work reveals orthopoxvirus targets for human Abs that mediate cross-protective immunity and identifies new candidate Ab therapeutic mixtures to replace VIG.
Topics: Antibodies, Monoclonal; Antibodies, Neutralizing; Antibodies, Viral; Antibody Specificity; Cowpox; Cowpox virus; Cross Reactions; Humans; Leukocytes, Mononuclear; Mpox (monkeypox); Monkeypox virus; Poxviridae Infections; Smallpox; Vaccinia; Vaccinia virus; Variola virus
PubMed: 27768891
DOI: 10.1016/j.cell.2016.09.049 -
Journal of Medical Virology Jan 2023Monkeypox virus (MPXV) has generally circulated in West and Central Africa since its emergence. Recently, sporadic MPXV infections in several nonendemic countries have...
Monkeypox virus (MPXV) has generally circulated in West and Central Africa since its emergence. Recently, sporadic MPXV infections in several nonendemic countries have attracted widespread attention. Here, we conducted a systematic analysis of the recent outbreak of MPXV-2022, including its genomic annotation and molecular evolution. The phylogenetic analysis indicated that the MPXV-2022 strains belong to the same lineage of the MPXV strain isolated in 2018. However, compared with the MPXV strain in 2018, in total 46 new consensus mutations were observed in the MPXV-2022 strains, including 24 nonsynonymous mutations. By assigning mutations to 187 proteins encoded by the MPXV genome, we found that 10 proteins in the MPXV are more prone to mutation, including D2L-like, OPG023, OPG047, OPG071, OPG105, OPG109, A27L-like, OPG153, OPG188, and OPG210 proteins. In the MPXV-2022 strains, four and three nucleotide substitutions are observed in OPG105 and OPG210, respectively. Overall, our studies illustrated the genome evolution of the ongoing MPXV outbreak and pointed out novel mutations as a reference for further studies.
Topics: Humans; Monkeypox virus; Mpox (monkeypox); Phylogeny; Genomics; Evolution, Molecular
PubMed: 35906185
DOI: 10.1002/jmv.28036 -
Advances in Virus Research 2017Safety tested Modified Vaccinia virus Ankara (MVA) is licensed as third-generation vaccine against smallpox and serves as a potent vector system for development of new... (Review)
Review
Safety tested Modified Vaccinia virus Ankara (MVA) is licensed as third-generation vaccine against smallpox and serves as a potent vector system for development of new candidate vaccines against infectious diseases and cancer. Historically, MVA was developed by serial tissue culture passage in primary chicken cells of vaccinia virus strain Ankara, and clinically used to avoid the undesirable side effects of conventional smallpox vaccination. Adapted to growth in avian cells MVA lost the ability to replicate in mammalian hosts and lacks many of the genes orthopoxviruses use to conquer their host (cell) environment. As a biologically well-characterized mutant virus, MVA facilitates fundamental research to elucidate the functions of poxvirus host-interaction factors. As extremely safe viral vectors MVA vaccines have been found immunogenic and protective in various preclinical infection models. Multiple recombinant MVA currently undergo clinical testing for vaccination against human immunodeficiency viruses, Mycobacterium tuberculosis or Plasmodium falciparum. The versatility of the MVA vector vaccine platform is readily demonstrated by the swift development of experimental vaccines for immunization against emerging infections such as the Middle East Respiratory Syndrome. Recent advances include promising results from the clinical testing of recombinant MVA-producing antigens of highly pathogenic avian influenza virus H5N1 or Ebola virus. This review summarizes our current knowledge about MVA as a unique strain of vaccinia virus, and discusses the prospects of exploiting this virus as research tool in poxvirus biology or as safe viral vector vaccine to challenge existing and future bottlenecks in vaccinology.
Topics: Animals; Drug Design; Genetic Vectors; History, 20th Century; History, 21st Century; Humans; Vaccinia virus; Viral Vaccines; Virus Diseases
PubMed: 28057259
DOI: 10.1016/bs.aivir.2016.07.001