Jack's wip page: Difference between revisions

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<br> The virus is also an arthropod-borne virus or arbovirus (CDC). For RVF, the virus is vectored by the species in the <i>Aedes</i> and <i>Culex</i> genus. This transmission varies on location but is often spread by the <i>Aedes aegypti</i> mosquito due to the near-global distribution. Additionally, RVFV can be transmitted through the eggs of <i>Aedes aegypti</i> mosquitoes (CDC, Lorenzo). This vertical transmission of the virus from a female mosquito to her offspring plays a significant role in the persistence of the virus. In this way, the mosquito acts not just as a vector of the virus, but also as a reservoir host and can maintain the presence of the virus in the absence of mammals to infect. Additionally, when there are floods, and female Aedes mosquitoes have more opportunities for egg-laying, there are many more cases of RVF in animal and human populations because there is an influx of RVFV positive mosquitoes (CDC). The virus can also be spread between animals in contaminated body fluids. These two modes of transmission, by mosquito vector and bodily fluid exposure, contribute to human exposure to the virus.
<br> The virus is also an arthropod-borne virus or arbovirus (CDC). For RVF, the virus is vectored by the species in the <i>Aedes</i> and <i>Culex</i> genus. This transmission varies on location but is often spread by the <i>Aedes aegypti</i> mosquito due to the near-global distribution. Additionally, RVFV can be transmitted through the eggs of <i>Aedes aegypti</i> mosquitoes (CDC, Lorenzo). This vertical transmission of the virus from a female mosquito to her offspring plays a significant role in the persistence of the virus. In this way, the mosquito acts not just as a vector of the virus, but also as a reservoir host and can maintain the presence of the virus in the absence of mammals to infect. Additionally, when there are floods, and female Aedes mosquitoes have more opportunities for egg-laying, there are many more cases of RVF in animal and human populations because there is an influx of RVFV positive mosquitoes (CDC). The virus can also be spread between animals in contaminated body fluids. These two modes of transmission, by mosquito vector and bodily fluid exposure, contribute to human exposure to the virus.
===Animal Health===
===Animal Health===
[[Image: RVF-2007-death-abortions.png |thumb|400px|right| Deaths and abortions caused by RVF in the 2006/2007 outbreak in Tanzania. Photo credit: Chengula. et al., 2013]]
[[Image: RVF-2007-death-abortions.png |thumb|400px|right| Deaths and abortions caused by RVF in the 2006/2007 outbreak in Tanzania. Photo credit: <ref name=Chengula/> https://springerplus.springeropen.com/articles/10.1186/2193-1801-2-549]]
[[Image: Predictors of RVF.png |thumb|400px|right| Factors that predict RVF deaths, abortions, and infection during 2010 Rift Valley Outbreak in Central South Africa. Photo Credit : Rostal. et al., 2020]]
===Economic Impact===
===Economic Impact===



Latest revision as of 19:15, 14 April 2024

Introduction

At the intersection of human and animal health there are zoonoses. Photo credit: https://www.cdc.gov/onehealth/images/social-media/zoonotic-diseases-spread-between-animals-and-people-twitter.jpg

By Jack Caine

For thousands of years humans have cultivated animals as companions and food sources. This long-lasting and close relationship, in addition to providing a foundation for human global expansion, has exposed us to many of their pathogens [1]. While these diseases can be quite deadly in their original hosts, the opportunity for a pathogen to be transmitted to a human from an animal increases with duration with them. Zoonoses are any disease that originates in animals and is transmitted to humans [2]. Nearly 60% of known infectious diseases come from zoonotic sources [1]. While zoonoses are not the most common type of disease in humans they do have the capacity to have outbreaks which can result in epidemics or pandemics. Many of the world’s most recent and devastating epidemics and pandemics have resulted from the spillover--the introduction of a novel pathogen into humans from animals--of diseases previously only found in animals. The most well-known of these are the sudden acute respiratory syndrome (SARS) and Middle East respiratory syndrome (MERS) epidemics, the SARS-CoV-2 pandemic, and the ongoing AIDS pandemics [1].


While wild animals are more frequently the source of zoonoses, the animals we have domesticated have their own virulent and devastating diseases [1] [3]. In addition, these livestock pathogens also cause issues for people because of the significant economic losses they can inflict [4] [5]. This problem is exacerbated when the causative pathogens have no vaccine, or treatment, or are under-researched. This is the case for many neglected tropical diseases (NTD) like Rift Valley Fever virus (RVFV) as well as others like Maedi-Visna virus (MVV). This often gives the


Rift Valley Fever

Phlebovirus responsible for Rift Valley Fever. Photo credit: https://thenativeantigencompany.com/products/rift-valley-fever-virus-nucleoprotein/

Virus

Rift Valley Fever is caused by an approximately 100 nm diameter spherical Phlebovirus in the family Bunyaviridae. It has a negative sense RNA genome with three segments, L, M, and S. The large (L) segment codes for the virus’s RNA-dependent RNA polymerase, and the medium (M) segment codes for the glycoproteins that coat the surface of the viral lipid bilayer envelope (Pepin). The small (S) segment is ambisense and codes for two proteins: a nucleoprotein and a virulence factor (Lorenzo). The nucleoprotein (N) aids the RNA-dependent RNA polymerase in transcription and replication of the viral genome. The virulence factor (NSs) plays a significant role in suppressing the innate host immune response (Lorenzo). The NSs factor suppresses the immune system by forming fibrils, clusters of the NSs proteins that appear filamented, which act as a general inhibitor of transcription as well as induce many DNA damage signaling proteins within the cell (Baer). This has the effect of halting the cell cycle, typically in S phase, which allows for greater viral replication (Lorenzo, Baer).


The virus is also an arthropod-borne virus or arbovirus (CDC). For RVF, the virus is vectored by the species in the Aedes and Culex genus. This transmission varies on location but is often spread by the Aedes aegypti mosquito due to the near-global distribution. Additionally, RVFV can be transmitted through the eggs of Aedes aegypti mosquitoes (CDC, Lorenzo). This vertical transmission of the virus from a female mosquito to her offspring plays a significant role in the persistence of the virus. In this way, the mosquito acts not just as a vector of the virus, but also as a reservoir host and can maintain the presence of the virus in the absence of mammals to infect. Additionally, when there are floods, and female Aedes mosquitoes have more opportunities for egg-laying, there are many more cases of RVF in animal and human populations because there is an influx of RVFV positive mosquitoes (CDC). The virus can also be spread between animals in contaminated body fluids. These two modes of transmission, by mosquito vector and bodily fluid exposure, contribute to human exposure to the virus.

Animal Health

Deaths and abortions caused by RVF in the 2006/2007 outbreak in Tanzania. Photo credit: [5] https://springerplus.springeropen.com/articles/10.1186/2193-1801-2-549
Factors that predict RVF deaths, abortions, and infection during 2010 Rift Valley Outbreak in Central South Africa. Photo Credit : Rostal. et al., 2020

Economic Impact

Human Health


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Maedi-Visna

Include some current research, with at least one figure showing data.

Virus

Animal Health

Economic Impact

Human Health


Solutions

Include some current research, with at least one figure showing data.

Section 4

Conclusion


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References



Authored for BIOL 238 Microbiology, taught by Joan Slonczewski,at Kenyon College,2024