Robert P Hirt1, Jackie Sherrard. 1. aInstitute for Cell and Molecular Biosciences, Faculty of Medical Sciences, Newcastle University, Newcastle upon Tyne bDepartment of Genitourinary Medicine, Churchill Hospital, Oxford, UK.
Abstract
PURPOSE OF REVIEW: To integrate a selection of the most recent data on Trichomonas vaginalis origins, molecular cell biology and T. vaginalis interactions with the urogenital tract microbiota with trichomoniasis symptoms and clinical management. RECENT FINDINGS: Transcriptomics and proteomics datasets are accumulating, facilitating the identification and prioritization of key target genes to study T. vaginalis pathobiology. Proteins involved in host sensing and cytoskeletal plasticity during T. vaginalis amoeboid transformation were identified. T. vaginalis was shown to secrete exosomes and a macrophage migration inhibitory factor-like protein that both influence host-parasite interactions. T. vaginalis co-infections with Mycoplasma species and viruses were shown to modulate the inflammatory responses, whereas T. vaginalis interactions with various Lactobacillus species inhibit parasite interactions with human cells. T. vaginalis infections were also shown to be associated with bacterial vaginosis. A broader range of health sequelae is also becoming apparent. Diagnostics for both women and men based on the molecular approaches are being refined, in particular for men. SUMMARY: New developments in the molecular and cellular basis of T. vaginalis pathobiology combined with data on the urogenital tract microbiota and immunology have enriched our knowledge on human-microbe interactions that will contribute to increasing our capacity to prevent and treat T. vaginalis and other sexually transmitted infections.
PURPOSE OF REVIEW: To integrate a selection of the most recent data on Trichomonas vaginalis origins, molecular cell biology and T. vaginalis interactions with the urogenital tract microbiota with trichomoniasis symptoms and clinical management. RECENT FINDINGS: Transcriptomics and proteomics datasets are accumulating, facilitating the identification and prioritization of key target genes to study T. vaginalis pathobiology. Proteins involved in host sensing and cytoskeletal plasticity during T. vaginalis amoeboid transformation were identified. T. vaginalis was shown to secrete exosomes and a macrophage migration inhibitory factor-like protein that both influence host-parasite interactions. T. vaginalis co-infections with Mycoplasma species and viruses were shown to modulate the inflammatory responses, whereas T. vaginalis interactions with various Lactobacillus species inhibit parasite interactions with human cells. T. vaginalis infections were also shown to be associated with bacterial vaginosis. A broader range of health sequelae is also becoming apparent. Diagnostics for both women and men based on the molecular approaches are being refined, in particular for men. SUMMARY: New developments in the molecular and cellular basis of T. vaginalis pathobiology combined with data on the urogenital tract microbiota and immunology have enriched our knowledge on human-microbe interactions that will contribute to increasing our capacity to prevent and treat T. vaginalis and other sexually transmitted infections.
Authors: Jesús F T Miranda-Ozuna; Mar S Hernández-García; Luis G Brieba; Claudia G Benítez-Cardoza; Jaime Ortega-López; Arturo González-Robles; Rossana Arroyo Journal: Infect Immun Date: 2016-09-19 Impact factor: 3.441
Authors: Rayyan Alam; Allen T Barbarovich; Wagma Caravan; Mirna Ismail; Angela Barskaya; David W Parkin; Brian J Stockman Journal: Chem Biol Drug Des Date: 2018-06-19 Impact factor: 2.817
Authors: Brian J Stockman; Abinash Kaur; Julia K Persaud; Maham Mahmood; Samantha F Thuilot; Melissa B Emilcar; Madison Canestrari; Juliana A Gonzalez; Shannon Auletta; Vital Sapojnikov; Wagma Caravan; Samantha N Muellers Journal: J Vis Exp Date: 2019-06-30 Impact factor: 1.355
Authors: Samantha N Muellers; Juliana A Gonzalez; Abinash Kaur; Vital Sapojnikov; Annie Laurie Benzie; Dean G Brown; David W Parkin; Brian J Stockman Journal: ACS Infect Dis Date: 2019-02-01 Impact factor: 5.084
Authors: Manal J Natto; Fabian Hulpia; Eric R Kalkman; Susan Baillie; Amani Alhejeli; Yukiko Miyamoto; Lars Eckmann; Serge Van Calenbergh; Harry P de Koning Journal: ACS Infect Dis Date: 2021-05-11 Impact factor: 5.578