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LEISHMANIA MAJOR TELOMERASE RNA KNOCKOUT: FROM ALTERED CELL PROLIFERATION TO DECREASED PARASITE INFECTIVITY
Telomerase RNA knockout and overexpression
Telomere shortening
TERRA upregulation
Altered cell proliferation
Decreased infectivity capacity
Author
Oliveira, Beatriz Cristina Dias de
Shiburah, Mark Ewusi
Assis, Luiz Henrique de Castro
Fontes, Veronica Silva
Bisetegn, Habtye
Passos, Arthur de Oliveira
Oliveira, Leilane Silva de
Alves, Cristiane de Santis
Ernst, Evan
Martienssen, Rob
Gallo-Francisco, Pedro Henrique
Giorgio, Selma
Batista, Marcos Meuser
Soeiro, Maria de Nazaré Correia
Barreto, Rubem Figueiredo Sadok Menna
Aoki, Juliana Ide
Coelho, Adriano Cappellazzo
Cano, Maria Isabel Nogueira
Shiburah, Mark Ewusi
Assis, Luiz Henrique de Castro
Fontes, Veronica Silva
Bisetegn, Habtye
Passos, Arthur de Oliveira
Oliveira, Leilane Silva de
Alves, Cristiane de Santis
Ernst, Evan
Martienssen, Rob
Gallo-Francisco, Pedro Henrique
Giorgio, Selma
Batista, Marcos Meuser
Soeiro, Maria de Nazaré Correia
Barreto, Rubem Figueiredo Sadok Menna
Aoki, Juliana Ide
Coelho, Adriano Cappellazzo
Cano, Maria Isabel Nogueira
Affilliation
São Paulo State University. Biosciences Institute. Department of Chemical and Biological Sciences. Botucatu, SP, Brasil.
São Paulo State University. Biosciences Institute. Department of Chemical and Biological Sciences. Botucatu, SP, Brasil / Council for Scientific and Industrial Research. Animal Research Institute. Accra, Ghana.
São Paulo State University. Biosciences Institute. Department of Chemical and Biological Sciences. Botucatu, SP, Brasil.
São Paulo State University. Biosciences Institute. Department of Chemical and Biological Sciences. Botucatu, SP, Brasil.
São Paulo State University. Biosciences Institute. Department of Chemical and Biological Sciences. Botucatu, SP, Brasil / Wollo University. College of Medicine and Health Sciences. Department of Medical Laboratory Sciences. Dessie, Ethiopia.
São Paulo State University. Biosciences Institute. Department of Chemical and Biological Sciences. Botucatu, SP, Brasil.
São Paulo State University. Biosciences Institute. Department of Chemical and Biological Sciences. Botucatu, SP, Brasil.
Howard Hughes Medical Institute. Chevy Chase, MD, USA / Cold Spring Harbor Laboratory. Cold Spring Harbor, NY, USA.
Howard Hughes Medical Institute. Chevy Chase, MD, USA / Cold Spring Harbor Laboratory. Cold Spring Harbor, NY, USA.
Howard Hughes Medical Institute. Chevy Chase, MD, USA / Cold Spring Harbor Laboratory. Cold Spring Harbor, NY, USA.
University of Campinas. Biology Institute. Department of Animal Biology. Campinas, SP, Brasil.
University of Campinas. Biology Institute. Department of Animal Biology. Campinas, SP, Brasil.
Fundação Oswaldo Cruz. Instituto Oswaldo Cruz. Laboratório de Biologia Celular. Rio de Janeiro, RJ, Brasil.
Fundação Oswaldo Cruz. Instituto Oswaldo Cruz. Laboratório de Biologia Celular. Rio de Janeiro, RJ, Brasil.
Fundação Oswaldo Cruz. Instituto Oswaldo Cruz. Laboratório de Biologia Celular. Rio de Janeiro, RJ, Brasil.
University of Campinas. Biology Institute. Department of Animal Biology. Campinas, SP, Brasil.
University of Campinas. Biology Institute. Department of Animal Biology. Campinas, SP, Brasil.
São Paulo State University. Biosciences Institute. Department of Chemical and Biological Sciences. Botucatu, SP, Brasil.
São Paulo State University. Biosciences Institute. Department of Chemical and Biological Sciences. Botucatu, SP, Brasil / Council for Scientific and Industrial Research. Animal Research Institute. Accra, Ghana.
São Paulo State University. Biosciences Institute. Department of Chemical and Biological Sciences. Botucatu, SP, Brasil.
São Paulo State University. Biosciences Institute. Department of Chemical and Biological Sciences. Botucatu, SP, Brasil.
São Paulo State University. Biosciences Institute. Department of Chemical and Biological Sciences. Botucatu, SP, Brasil / Wollo University. College of Medicine and Health Sciences. Department of Medical Laboratory Sciences. Dessie, Ethiopia.
São Paulo State University. Biosciences Institute. Department of Chemical and Biological Sciences. Botucatu, SP, Brasil.
São Paulo State University. Biosciences Institute. Department of Chemical and Biological Sciences. Botucatu, SP, Brasil.
Howard Hughes Medical Institute. Chevy Chase, MD, USA / Cold Spring Harbor Laboratory. Cold Spring Harbor, NY, USA.
Howard Hughes Medical Institute. Chevy Chase, MD, USA / Cold Spring Harbor Laboratory. Cold Spring Harbor, NY, USA.
Howard Hughes Medical Institute. Chevy Chase, MD, USA / Cold Spring Harbor Laboratory. Cold Spring Harbor, NY, USA.
University of Campinas. Biology Institute. Department of Animal Biology. Campinas, SP, Brasil.
University of Campinas. Biology Institute. Department of Animal Biology. Campinas, SP, Brasil.
Fundação Oswaldo Cruz. Instituto Oswaldo Cruz. Laboratório de Biologia Celular. Rio de Janeiro, RJ, Brasil.
Fundação Oswaldo Cruz. Instituto Oswaldo Cruz. Laboratório de Biologia Celular. Rio de Janeiro, RJ, Brasil.
Fundação Oswaldo Cruz. Instituto Oswaldo Cruz. Laboratório de Biologia Celular. Rio de Janeiro, RJ, Brasil.
University of Campinas. Biology Institute. Department of Animal Biology. Campinas, SP, Brasil.
University of Campinas. Biology Institute. Department of Animal Biology. Campinas, SP, Brasil.
São Paulo State University. Biosciences Institute. Department of Chemical and Biological Sciences. Botucatu, SP, Brasil.
Abstract
This study focuses on the biological impacts of deleting the telomerase RNA from Leishmania major (LeishTER), a parasite responsible for causing leishmaniases, for which no effective treatment or prevention is available. TER is a critical player in the telomerase ribonucleoprotein complex, containing the template sequence copied by the reverse transcriptase component during telomere elongation. The success of knocking out both LeishTER alleles was confirmed, and no off-targets were detected. LmTER−/− cells share similar characteristics with other TER-depleted eukaryotes, such as altered growth patterns and partial G0/G1 cell cycle arrest in early passages, telomere shortening, and elevated TERRA expression. They also exhibit increased γH2A phosphorylation, suggesting that the loss of LeishTER induces DNA damage signaling. Moreover, pro-survival autophagic signals and mitochondrion alterations were shown without any detectable plasma membrane modifications. LmTER−/− retained the ability to transform into metacyclics, but their infectivity capacity was compromised. Furthermore, the overexpression of LeishTER was also deleterious, inducing a dominant negative effect that led to telomere shortening and growth impairments. These findings highlight TER's vital role in parasite homeostasis, opening discussions about its potential as a drug target candidate against Leishmania.
Keywords
Leishmania spp.Telomerase RNA knockout and overexpression
Telomere shortening
TERRA upregulation
Altered cell proliferation
Decreased infectivity capacity
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