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Mali International Center for Excellence in Research

$312,306ZIAFY2021AINIH

National Institute Of Allergy And Infectious Diseases

Investigators

Linked publications & trials

Abstract

In 2010, we published the first description of a genetically unique strain of Lassa virus isolated from Mastomys natalensis captured in Mali, an area previously thought to be free of Lassa virus. Over the last ten years we have continued to conduct field studies mapping the geographic distribution of Lassa virus in peridomestic settings across sub-Saharan Mali. With a better understanding of the endemic regions for this virus in Mali, the Lassa program has transitioned into studies aimed at defining the infection dynamics and transmissibility of Lassa in the natural rodent hosts. For this we have established a colony of Mastomys natalensis at the Rocky Mountain Laboratories. Several studies have shown that the animals can be persistently infected with different Lassa strains without showing obvious clinical signs but virus shedding through different routes (studies still ongoing). We have also investigated the possibility of the Mastomys as a host for a spirochete Borrelia Crocidurae, a cause of relapsing fever. We found that these animals support a long-term infection and may in fact be an unreported host species for this disease-causing bacterium. Thus, this colony provides a unique tool for future Lassa virus infection studies in the natural host. More recently, we have established methodology and technology to study innate and adaptive immune responses in Mastomys natalensis. (Nuismer et al., PLoS Negl Trop Dis 2020; Safronetz et al., Viruses 2021; Smith et al., Lab Anim 2021; Tang-Huau et al., Viruses 2021) A few years back, we have started projects to define the incidence rates of Lassa virus infection in humans in southern Mali. Two human serosurvey studies were conducted at three sites; IgG seroprevalence was found at all sites ranging from 16-44%. Interestingly, in the follow-up study we identified an annual infection rate of 6.3%. As there are no clinical reports of Lassa fever in Mali, this indicates that asymptomatic and mild infections may frequently occur. Experimental studies using a Lassa isolate from Mali, designated Soromba, support this hypothesis as Soromba is less virulent in animal models and presents with an atypical respiratory disease in cynomolgus macaques. A new two-part human study covering a larger geographic area is now underway. In this study we are examining a cross-section of the population as a whole looking for Lassa virus prevalence and collecting clinical samples from hospitals to determine the prevalence of Lassa Fever. This study will confirm and expand upon our previous results and identify human infections to determine the public health importance of Lassa virus infections in Mali. The Mali field program has expanded to include other zoonotic viruses including surveillance for additional arenaviruses (Lassa, Lujo), bunyaviruses (hantaviruses, Crimean-Congo hemorrhagic fever virus (CCHFV), Rift Valley fever virus), filoviruses (Ebola and Marburg), flaviviruses (Dengue, Zika), and coronavirus (MERS-CoV, SARS-CoV-2). We have started to also test serum/blood from humans and livestock and wildlife species to determine the prevalence and importance of zoonotic pathogens for animal and public health in Mali. As of today, we could demonstrate MERS-CoV infections in Malian camels and high CCHFV infection rates in Malian cattle. For humans, we could establish serologic evidence for flavivirus (Dengue, Zika), bunyaviruses (hantavirus), and togaviruses (Chikungunya) infections as well as infections with Leptospira spp.; all contributing to human illness in Mali. Most recently, we demonstrated seroprevalence for Ebola in southern Mali. These results implying that several of these zoonotic pathogens are widely distributed yet underreported throughout Mali. (Calvignac-Spencer et al., Arch Virol 2020; Bane et al., Emerg Infect Dis 2021) We have continued to test the preclinical efficacy of favipiravir for Crimean-Congo hemorrhagic fever virus (CCHFV) and Lassa virus in animal models. In addition, we are expanding vaccine research for CCHFV and Lassa virus using vectored vaccines such as vesicular stomatitis virus vectors. (Hansen et al., Microorganisms 2021; Lingas et al., PLoS Comput Biol, 2021) In February 2020, we developed and established diagnostic testing for the emerging SARS-CoV-2. At that time Mali did not have any COVID cases, a situation that changed dramatically. The ICER site (Point G) continues to be one of 4 national diagnostic centers for COVID testing in Mali. Although we have not been ablet to travel since February of 2020 due to COVID restrictions, we continue to support the diagnostic effort and are maintaining our field program through the clinical study. This program continues to educate and train young Malian scientists. Currently, Sidy Bane is in his third year of graduate studies for a PhD degree from the University of Bamako. He has recently published a manuscript on Ebola prevalence in Southern Mali. A new lab member was recently hired, Fatoumata Camara. She will continue her molecular biology training and will be working as a lab technician. She will support all the field activities and subsequent lab activities in support of the field work.

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