[Monkey Pox] Rapid Research Response

The project proposes a rapid response to the current monkeypox virus (MPXV) epidemic. It is led by the Pirbright Institute and the Centre for Virus Research - Glasgow - the two UKRI-funded institutes that lead on virus infections of animals and humans - and brings together relevant expertise from several other UK universities and institutions including the Universities of Cambridge, Oxford, Birmingham, Edinburgh and Surrey, Dstl, UKHSA, Guys and St Thomas NHS. Between April and 18th July 2022, there have been 2137 confirmed cases of human monkeypox (MPX) in UK and the WHO has reported infections in all 5 WHO regions and 50 member states. The current epidemic is the largest ever known for MPXV. An urgent response to this growing epidemic is needed. The consortium assembled proposes 6 inter-related work packages as follows. 1. Genomic characterisation of MPXV. 2. Examination of possible virus spillover from humans to UK animals 3. Study of the intrinsic and innate barriers to MPXV infection, and MPXV immune evasion strategies 4. Study of the immune response to MPXV infection and vaccination 5. Development of anti-viral drugs and monitoring for emergence of MPXV drug resistance 6. To develop point of care diagnostic tests for MPXV WP 1. This will undertake sequencing of MPXV genomes isolated from humans in UK and monitor virus evolution and adaptation to humans. The sequencing will pay particular attention to the acquisition of genome mutations that might affect virus replication, transmission, virulence or drug resistance and links to WP5. WP2. MPXV has a natural reservoir in rodents in parts of Africa and has a relatively broad host range that includes North American rodents, primates and humans. The widespread human infections provide a possible opportunity for human to animal transmission. This WP will evaluate this potential by examining the ability of MPXV to infect primary cells from a variety of UK animals. WP3. This WP will evaluate the host response to infection by measuring the transcriptomic and proteomic responses to infection of human cells and testing the roles of specific host proteins in protecting against MPXV infection. Further, the ability of MPXV to counteract these defences will be tested building on what has been learnt from studies of related orthopoxviruses. WP4. The immune response to MPXV infection of humans will be measured by determining the antibody and T cell responses. These will be compared with the responses to vaccination using the smallpox vaccine. A specific aim will be to identity signature T cell responses that are characteristic of MPXV infection. In addition to information vaccination programmes, the development of specific tests for immune monitoring will be undertaken. WP5. This WP is concerned with the development of anti-MPXV drugs and builds on the development of CRUSH (COVID-19 Drug Screening and Resistance Hub) at CVR-Glasgow. Currently, 2 drugs are licensed for use against MPXV and these each target a specific virus protein, but mutation of these proteins can lead to drug resistance. The WP proposes to screen additional FDA-approved drugs that have activity against VACV for activity against MPXV. Cyclosporin A and non-immunosuppressive derivatives will be included since these target a proviral cellular protein, cyclophilin A, and therefore emergence of virus resistance is difficult. WP 6. This will develop point of care (POC) diagnostic tests for MPXV. Currently, MPXV infection is confirmed by polymerase chain reaction (PCR), which is specific and sensitive but requires a specialist laboratory. A POC test (such as developed for SARS-CoV-2) would be of great benefit to speed diagnosis. Two approaches will be tried: a Lateral flow test (LAT) and a loop-mediated isothermal amplification (LAMP)-based assay.