Your search keyword '"Ghorbaninejad Z"' showing total 3 results

1. Gene–Environment Interactions in Repeat Expansion Diseases: Mechanisms of Environmentally Induced Repeat Instability.

Author

Calluori, Stephanie, Stark, Rebecca, and Pearson, Brandon L.

Subjects

MICROSATELLITE repeats, BASE pairs, AGE of onset, FACIOSCAPULOHUMERAL muscular dystrophy, DNA repair, GENOTYPE-environment interaction, DNA damage, SPINOCEREBELLAR ataxia

Abstract

Short tandem repeats (STRs) are units of 1–6 base pairs that occur in tandem repetition to form a repeat tract. STRs exhibit repeat instability, which generates expansions or contractions of the repeat tract. Over 50 diseases, primarily affecting the central nervous system and muscles, are characterized by repeat instability. Longer repeat tracts are typically associated with earlier age of onset and increased disease severity. Environmental exposures are suspected to play a role in the pathogenesis of repeat expansion diseases. Here, we review the current knowledge of mechanisms of environmentally induced repeat instability in repeat expansion diseases. The current evidence demonstrates that environmental factors modulate repeat instability via DNA damage and induction of DNA repair pathways, with distinct mechanisms for repeat expansion and contraction. Of particular note, oxidative stress is a key mediator of environmentally induced repeat instability. The preliminary evidence suggests epigenetic modifications as potential mediators of environmentally induced repeat instability. Future research incorporating an array of environmental exposures, new human cohorts, and improved model systems, with a continued focus on cell-types, tissues, and critical windows, will aid in identifying mechanisms of environmentally induced repeat instability. Identifying environmental modulators of repeat instability and their mechanisms of action will inform preventions, therapies, and public health measures. [ABSTRACT FROM AUTHOR]

Published

2023

2. 3D Human Organoids: The Next "Viral" Model for the Molecular Basis of Infectious Diseases.

Author

Chia, Shirley Pei Shan, Kong, Sharleen Li Ying, Pang, Jeremy Kah Sheng, and Soh, Boon-Seng

Subjects

COMMUNICABLE diseases, ORGANOIDS, CELL culture, ANIMAL culture, SCIENTIFIC community

Abstract

The COVID-19 pandemic has driven the scientific community to adopt an efficient and reliable model that could keep up with the infectious disease arms race. Coinciding with the pandemic, three dimensional (3D) human organoids technology has also gained traction in the field of infectious disease. An in vitro construct that can closely resemble the in vivo organ, organoid technology could bridge the gap between the traditional two-dimensional (2D) cell culture and animal models. By harnessing the multi-lineage characteristic of the organoid that allows for the recapitulation of the organotypic structure and functions, 3D human organoids have emerged as an essential tool in the field of infectious disease research. In this review, we will be providing a comparison between conventional systems and organoid models. We will also be highlighting how organoids played a role in modelling common infectious diseases and molecular mechanisms behind the pathogenesis of causative agents. Additionally, we present the limitations associated with the current organoid models and innovative strategies that could resolve these shortcomings. [ABSTRACT FROM AUTHOR]

Published

2022

3. What We Have Learned from Animal Models to Understand the Etiology and Pathology of Endometrioma-Related Infertility.

Author

Tan, Zhouyurong, Hung, Sze-Wan, Zheng, Xu, Wang, Chi-Chiu, Chung, Jacqueline Pui-Wah, and Zhang, Tao

Subjects

OVARIAN reserve, LEARNING in animals, INFERTILITY, HUMAN reproduction, ANIMAL models in research, ENDOMETRIOSIS

Abstract

Endometrioma (OMA) is the most common subtype of endometriosis, in which the endometriotic lesions are implanted in the ovary. Women with OMA are usually associated with infertility, presenting with reduced ovarian reserve, low oocyte quantity and quality, and poor fertility outcomes. However, the underlying pathological mechanisms in OMA-related infertility are still unclear. Due to the limitations and ethical issues of human studies in reproduction, animal models that recapitulate OMA characteristics and its related infertility are critical for mechanistic studies and subsequent drug development, preclinical testing, and clinical trials. This review summarized the investigations of OMA-related infertility based on previous and latest endometrioma models, providing the possible pathogenesis and potential therapeutic targets for further studies. [ABSTRACT FROM AUTHOR]

Published

2022