From The Labs

Research method finds new use in diagnosis of genetic disorders

A laboratory technician processing samples. Pixabay

Researchers at Baylor College of Medicine have tested the feasibility of using human cell transdifferentiation with RNA sequencing to facilitate diagnoses of Mendelian disorders. The approach generated an overall diagnostic yield of 25.4% in a cohort of Undiagnosed Diseases Network cases. The findings are published in the American Journal of Human Genetics.

RNA sequencing, which reads the transcriptome or gene expression in a cell, is often needed to support a genetic diagnosis obtained through exome sequencing or whole genome sequencing. However, the effectiveness of RNA sequencing is limited by expression of disease-associated genes in clinically accessible tissues like blood or skin fibroblasts, cells that contribute to the formation of connective tissue.

Dr. Pengfei Liu

“This is especially problematic in neurological diseases because the gene causing the disorder may not be expressed in blood and skin cells,” said corresponding author Dr. Pengfei Liu, associate professor of molecular and human genetics and director of the ACGME-accredited Laboratory Genetics and Genomics Fellowship Program at Baylor.

Research method helps overcome obstacles to genetic diagnoses 

To overcome this challenge, researchers led by first author Dr. Shenglan Li, staff scientist in Liu’s lab at Baylor, converted fibroblasts obtained in skin biopsies to neurons in a process called transdifferentiation. “This method activates neuron-specific gene expression and increases the probability that we can accurately characterize disease-causing mutations in these cells,” Li said.

For clinical validation, researchers generated these induced neurons for a cohort of 71 individuals with neurological characteristics in the Undiagnosed Diseases Network. RNA sequencing of the induced neurons led to a diagnosis in 18 individuals (25.4%); five of those cases could not have been diagnosed with RNA sequencing of fibroblasts alone.

This study shows that fibroblast-to-neuron transdifferentiation followed by RNA sequencing is a simple, low-cost and reproducible approach with a reasonable turnaround time, making it feasible for clinical implementation,” Liu said. “This new testing method represents a paradigm shift in laboratory genetics, moving from the traditional DNA-centric approach to one that focuses on the patient’s cells.”

“It’s exciting to apply this well-established technique, which previously has been used to study mechanisms of neurodegenerative diseases, for a new use in genetic diagnostics,” Li said.

Other authors of this work include Sen Zhao, Jefferson C. Sinson, Aleksandar Bajic, Jill A. Rosenfeld, Matthew B. Neeley, Mezthly Pena, Kim C. Worley, Lindsay C. Burrage, Monika Weisz-Hubshman, Shamika Ketkar, William J. Craigen, Gary D. Clark, Seema Lalani, Carlos A. Bacino, Keren Machol, Hsiao-Tuan Chao, Lorraine Potocki, Lisa Emrick, Jennifer Sheppard, My T.T. Nguyen, Anahita Khoramnia, Paula Patricia Hernandez, Sandesh C. S. Nagamani, Zhandong Liu, Christine M. Eng and Brendan Lee. They are affiliated with one or more of the following institutions: Baylor College of Medicine, Jan and Dan Duncan Neurological Research Institute at Texas Children’s Hospital, Texas Children’s Hospital, McNair Medical Institute at the Robert and Janice McNair Foundation and Baylor Genetics.

The research was supported by the National Institutes of Health Common Fund (U01HG007709 and U01HG007942), the National Human Genome Research Institute (R35HG011311) and the BCM Intellectual and Developmental Disabilities Research Center funded by the Eunice Kennedy Shriver National Institute of Child Health & Human Development (P50HD103555). For a full list of funding sources, see the publication.


By Molly Chiu

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