A tube with amniotic fluid for analysis

Diagnostic Potential of Amniotic Fluid Cells in Deciphering Rare Diseases

This is the first study to demonstrate the clinical utility of amniotic fluid cells RNA-sequencing

The University of Hong Kong
Published:Jan 04, 2023
|3 min read

A clinical research team from the Department of Paediatrics and Adolescent Medicine and the Department of Obstetrics and Gynaecology, School of Clinical Medicine, LKS Faculty of Medicine, The University of Hong Kong (HKUMed) leads the discovery of applying amniotic fluid cells obtained during 16-24 weeks of pregnancy as a novel sample type for RNA-sequencing in prenatal diagnosis to help more families with tailored clinical management. It is the first proof-of-concept study to demonstrate the potential clinical utility of amniotic fluid cells RNA-sequencing in the literature. The ground-breaking findings have been published in the leading academic journal, npj Genomic Medicine.

Background

Rare diseases are usually genetic in origin. Although individually rare, collectively rare diseases were found to be one in 67 in the Hong Kong population, based on the team’s previous study. The identification of genetic cause in rare diseases can provide accurate counseling for better clinical management and future pregnancy planning, which is essential to support the patients. Current technologies for prenatal diagnosis are largely DNA-based, with a large proportion (60-70 percent) remains undiagnosed, leading to clinical uncertainty and parental anxiety. Recently, RNA-sequencing has been found to increase diagnostic yield by 10 percent to 36 percent, however, none of these studies focused on prenatal diagnosis. In addition, in spite of the availability of well-established large database cataloging the gene expression profile of different tissues for adult, similar publicly-available dataset for amniotic fluid cells reflecting the embryological and fetal stage is lacking. Further study and research on RNA-sequencing in prenatal setting is thus necessary.

Research findings

The research team demonstrated the potential clinical utility of amniotic fluid cells RNA-sequencing. A baseline for gene expression profile of amniotic fluid cells is established by performing RNA-sequencing on over 50 amniotic fluid samples. Establishment of gene expression profile is an essential step in applying RNA-sequencing to the current selected clinical diagnosis workflow. They found that the number of well-expressed genes in amniotic fluid cells was comparable to other clinically accessible tissues commonly used for genetic diagnosis across different disease categories. The research team also compared RNA-sequencing data of four affected fetuses with structural congenital anomalies with the established baseline to detect potential outliers. In collaboration with the Technical University of Munich in Germany, a bioinformatics pipeline was adapted to enhance the detection of outliers for subsequent analysis. Further in-depth curation showed that outliers can be identified in genes associated with the corresponding structural congenital anomalies in all four affected fetuses. Identifying the outliers provide more evidence at the RNA level to help diagnosis.

Significance of the study

The findings of this study have significant implications in solving undiagnosed rare diseases in Hong Kong. It is the first time that amniotic fluid cells RNA-sequencing is reported to provide potential clinical utility in prenatal diagnosis in literature. With the identification of the genetic cause, precision medicine such as tailored clinical management and preimplantation genetic diagnosis for families with family history is possible.

This study was selected as the “Reviewers Choice Abstract” (top 10 percent of poster abstract) at the American Society of Human Genetics (ASHG) Annual Meeting 2022, one of the largest conferences of its kind, in which scientists from around the world are selected to present their cutting-edge research findings collaboratively. “It is an honour for HKUMed poster to be selected and scored as the top 10 percent of poster abstracts in this prestigious international conference. RNA-sequencing has great potential in solving unexplained genetic disorders. We will continue to strengthen ties and collaborations with institutions in Hong Kong and abroad, contribute to international scientific research and bring benefits back to our local patients,” said Dr. Brian Chung Hon-yin, Clinical Geneticist, Clinical Associate Professor, Department of Paediatrics and Adolescent Medicine, School of Clinical Medicine, HKUMed.

Dr. Anita Kan Sik-yau, Honorary Clinical Associate Professor, Department of Obstetrics and Gynaecology, School of Clinical Medicine, HKUMed cum Deputy Laboratory Director of the Prenatal Diagnostic Laboratory at Tsan Yuk Hospital added, “On the memorable occasion of Tsan Yuk Hospital (TYH)’s 100th Anniversary, this study demonstrated TYH’s exceptional service for Hong Kong over the past century, and continuous effort to contribute to all those in need, alongside innovative research.”

About the research team

This research was led by Chung Hon-yin, Clinical Associate Professor, Department of Paediatrics and Adolescent Medicine, School of Clinical Medicine, HKUMed; Kan Sik-yau, Honorary Clinical Associate Professor, Department of Obstetrics and Gynaecology, School of Clinical Medicine, HKUMed. Mianne Lee, MPhil candidate, and Dr. Anna Kwong Ka-yee, Assistant Research Officer, Department of Paediatrics and Adolescent Medicine, School of Clinical Medicine, HKUMed are the first authors.

Other contributors included Dr. Christopher Mak Chun-yu, Martin Chui Man-chun, Jeffrey Chau Fong-ting, Department of Paediatrics and Adolescent Medicine, School of Clinical Medicine, HKUMed; Dr. Kelvin Chan Yuen-kwong, Dr. Sandy Au Leung-kuen, and Lo Hei-man, Department of Obstetrics and Gynaecology, School of Clinical Medicine, HKUMed. International collaborators were Professor Julien Gagneur and Dr. Vicente A Yépez from Department of Informatics, Technical University of Munich, Garching, Germany.

- This press release was originally published on The University of Hong Kong website