A recent Viruses journal study discusses the Kiwira virus, which belongs to the Hantaviridae family, including its discovery, phylogenetic placement, and tissue distribution of viral ribonucleic acid (RNA).
Study: Kiwira Virus, a Newfound Hantavirus Discovered in Free-tailed Bats (Molossidae) in East and Central Africa. Image Credit: Kateryna Kon / Shutterstock.com
What are hantaviruses?
Genetics & Genomics eBook
Hantaviruses belonging to the Hantaviridae family have tri-segmented RNA genomes. The small (S) genomic segment encodes for the nucleocapsid (N) protein, whereas the medium (M) segment encodes for envelope glycoproteins, and the large (L) genomic segment encodes for RNA-dependent RNA polymerase.
Several small mammals can harbor hantaviruses, the most notable of which include rodents, followed by shrews, bats, and moles. Several hantaviruses are capable of infecting humans, all of which have originated from rodents and belong to the Orthohantavirus genus. Upon infection in humans, hantaviruses cause fever, followed by renal and respiratory impairments that can ultimately lead to organ failure.
Bat-borne hantaviruses, belonging to either the Mobatvirus or Loanvirus genera, have been reported in 14 bat species throughout Asia, Europe, and Africa. However, these viruses have yet to be isolated and cultured; therefore, their potential to infect humans is not fully understood.
About the study
In the current study, bats were captured in the Democratic Republic of Congo (DRC) and South-West Tanzania in 2017 and subsequently anesthetized and sacrificed. All bats' intestines, kidneys, lungs, spleen, and liver were collected.
Tissue specimens were collected for viral RNA extraction and analysis by the reverse transcription polymerase chain reaction (RT-PCR) assay. In addition, phylogenetic analyses were also performed.
Study findings
PCR analysis revealed the presence of hantavirus sequences in six out of 334 bats from Tanzania and one out of the 49 bats obtained from DRC.
Notably, the viruses isolated from both Tanzania and DRC bats shared 98.6% identity. The highest pairwise identities were observed between the Quezon and Robinia viruses of up to 82.9% and 81.4%, respectively.
All Hantavirus-positive bats obtained from Tanzania were Angolan free-tailed bats, otherwise known as Mops condylurus, which belong to the Molossidae family. This species was not previously known to harbor hantaviruses.
Out of the six Hantavirus-positive bats from Tanzania, one was female, and five were male. The one positive bat from DRC was male; however, the species of this bat could not be determined.
Hantavirus-negative bats belonged to Molossidae (89), Pteropodidae (226), Hipposideridae(1), Rhinolophidae (3), and Vespertilionidae (39) families, whereas the remaining 18 bat species could not be identified.
All tissues collected from the Hantavirus-positive bats from Tanzania were positive for viral RNA, except for one bat in which the lungs were the only organ positive for this virus. Notably, two bats exhibited the highest viral loads in their spleens.
A novel virus sequence was observed from the Tanzania bats that were subsequently denoted as the “Kiwira” virus within the Mobatavirus genus. This discovery makes the Kiwira virus the fourth bat-borne hantavirus to be identified in Africa.
The complete nucleocapsid and glycoprotein precursor amino acid sequences of the novel Kiwira virus could not be obtained for further analysis. The closest relatives to the Kiwira virus include the Robina and Quezon viruses.
Bats infected with the Kiwira virus exhibited systemic infection, including involvement in their kidneys and intestines. Thus, it is likely that the hantavirus can be excreted through both urine and feces.
Conclusions
M. condylurus bats circulate throughout Africa, often found in buildings and hollow trees and throughout various parts of both tropical and savannah regions ranging from West to East African countries. In addition to the widespread distribution of these bats throughout Africa, the proximity of the bats captured in this study to human settlements raises concerns that the Kiwira virus could potentially spill over to humans.
Although hantaviruses do not appear to cause disease in humans, their ability to cause febrile illness, a common symptom shared with other infections, may allow its infection to be overlooked. It is, therefore, essential to improve the development of accurate serological assays that can be used to confirm infection with hantaviruses.
- Weiss, S., Sudi, L. E., Düx, A., et al. (2022). Kiwira Virus, a Newfound Hantavirus Discovered in Free-tailed Bats (Molossidae) in East and Central Africa. Viruses. doi:10.3390/v14112368
Posted in: Genomics | Medical Science News | Medical Research News | Disease/Infection News
Tags: Amino Acid, Assay, Fever, Genomic, Glycoprotein, Hantavirus, Liver, Lungs, Polymerase, Polymerase Chain Reaction, Protein, Respiratory, Ribonucleic Acid, RNA, RNA Extraction, Spleen, Transcription, Virus
Written by
Nidhi Saha
I am a medical content writer and editor. My interests lie in public health awareness and medical communication. I have worked as a clinical dentist and as a consultant research writer in an Indian medical publishing house. It is my constant endeavor is to update knowledge on newer treatment modalities relating to various medical fields. I have also aided in proofreading and publication of manuscripts in accredited medical journals. I like to sketch, read and listen to music in my leisure time.
Source: Read Full Article