Miryam Andrea Hortua Triana1, Karla M Márquez-Nogueras1, Stephen A Vella1, Silvia N J Moreno2. 1. Center for Tropical and Emerging Global Diseases, University of Georgia, Athens, GA 30602, USA. 2. Center for Tropical and Emerging Global Diseases, University of Georgia, Athens, GA 30602, USA; Department of Cellular Biology, University of Georgia, Athens, GA 30602, USA. Electronic address: smoreno@uga.edu.
Abstract
Toxoplasma gondii has a complex life cycle involving different hosts and is dependent on fast responses, as the parasite reacts to changing environmental conditions. T. gondii causes disease by lysing the host cells that it infects and it does this by reiterating its lytic cycle, which consists of host cell invasion, replication inside the host cell, and egress causing host cell lysis. Calcium ion (Ca2+) signaling triggers activation of molecules involved in the stimulation and enhancement of each step of the parasite lytic cycle. Ca2+ signaling is essential for the cellular and developmental changes that support T. gondii parasitism. The characterization of the molecular players and pathways directly activated by Ca2+ signaling in Toxoplasma is sketchy and incomplete. The evolutionary distance between Toxoplasma and other eukaryotic model systems makes the comparison sometimes not informative. The advent of new genomic information and new genetic tools applicable for studying Toxoplasma biology is rapidly changing this scenario. The Toxoplasma genome reveals the presence of many genes potentially involved in Ca2+ signaling, even though the role of most of them is not known. The use of Genetically Encoded Calcium Indicators (GECIs) has allowed studies on the role of novel calcium-related proteins on egress, an essential step for the virulence and dissemination of Toxoplasma. In addition, the discovery of new Ca2+ players is generating novel targets for drugs, vaccines, and diagnostic tools and a better understanding of the biology of these parasites.
n class="Species">Toxoplasma gondii has a complex life cycle involving different hosts and is dependent on fast responses, as the parasite reacts to changing environmental conditions. T. gondii causes disease by lysing the host cells that it infects and it does this by reiterating its lytic cycle, which consists of host cell invasion, replication inside the host cell, and egress causing host cell lysis. Calcium ion (Ca2+) signaling triggers activation of molecules involved in the stimulation and enhancement of each step of the parasite lytic cycle. Ca2+ signaling is essential for the cellular and developmental changes that support T. gondii parasitism. The characterization of the molecular players and pathways directly activated by Ca2+ signaling in Toxoplasma is sketchy and incomplete. The evolutionary distance between Toxoplasma and other eukaryotic model systems makes the comparison sometimes not informative. The advent of new genomic information and new genetic tools applicable for studying Toxoplasma biology is rapidly changing this scenario. The Toxoplasma genome reveals the presence of many genes potentially involved in Ca2+ signaling, even though the role of most of them is not known. The use of Genetically Encoded Calcium Indicators (GECIs) has allowed studies on the role of novel calcium-related proteins on egress, an essential step for the virulence and dissemination of Toxoplasma. In addition, the discovery of new Ca2+ players is generating novel targets for drugs, vaccines, and diagnostic tools and a better understanding of the biology of these parasites.
Authors: Carol S Bookwalter; Anne Kelsen; Jacqueline M Leung; Gary E Ward; Kathleen M Trybus Journal: J Biol Chem Date: 2014-09-17 Impact factor: 5.157
Authors: M F Cesbron-Delauw; B Guy; G Torpier; R J Pierce; G Lenzen; J Y Cesbron; H Charif; P Lepage; F Darcy; J P Lecocq Journal: Proc Natl Acad Sci U S A Date: 1989-10 Impact factor: 11.205
Authors: Sebastian Lourido; Chao Zhang; Michael S Lopez; Keliang Tang; Jennifer Barks; Qiuling Wang; Scott A Wildman; Kevan M Shokat; L David Sibley Journal: J Med Chem Date: 2013-03-26 Impact factor: 7.446
Authors: Wafaa A Aboukamar; Abeer A Elhenawy; Manar S Elmehankar; Manal A Elzoheiry; Randa El-Gamal; Lamiaa M Elabbasy; Heba Hany; Nairmen Nabih Journal: Parasitol Res Date: 2022-06-17 Impact factor: 2.383
Authors: Stephen A Vella; Christina A Moore; Zhu-Hong Li; Miryam A Hortua Triana; Evgeniy Potapenko; Silvia N J Moreno Journal: Cell Calcium Date: 2021-01-19 Impact factor: 6.817
Authors: Andrew J Stasic; Eric J Dykes; Ciro D Cordeiro; Stephen A Vella; Mojtaba S Fazli; Shannon Quinn; Roberto Docampo; Silvia N J Moreno Journal: Mol Microbiol Date: 2021-04-19 Impact factor: 3.979
Authors: Andrew J Stasic; Nathan M Chasen; Eric J Dykes; Stephen A Vella; Beejan Asady; Vincent J Starai; Silvia N J Moreno Journal: Cell Rep Date: 2019-05-14 Impact factor: 9.423
Authors: Manuel A Fierro; Beejan Asady; Carrie F Brooks; David W Cobb; Alejandra Villegas; Silvia N J Moreno; Vasant Muralidharan Journal: mBio Date: 2020-02-25 Impact factor: 7.867