Genetic breakthrough to target care for deadly heart condition

January 25, 2021

New genetic faults discovered in people with a heart condition that is sometimes inherited in families could transform the diagnosis and treatment of the hidden disease, according to research funded by the British Heart Foundation (BHF) and published in Nature Genetics.

Researchers have found a new type of genetic change in the DNA of people with hypertrophic cardiomyopathy (HCM) - a silent killer amongst families that can cause sudden death in young people due to the thickening of the heart muscle.

This ground-breaking discovery, which may be the biggest advance in our knowledge of the genetic basis of the disease in 25 years, will help doctors better predict which family members need to be monitored for the condition and which can be ruled out from further tests or treatment.

For over 25 years, scientists have known that HCM is caused by 'rare' genetic faults in the machinery responsible for helping the heart muscle to contract and pump blood around the body. However, researchers and cardiologists have never been able to explain why the condition is so varied amongst family members who have the same rare mutation and why some people without these mutations still go on to develop HCM.

Now, BHF Professor Hugh Watkins and his team at the Radcliffe Department of Medicine at the University of Oxford have discovered that the inheritance of a different type of genetic fault - called 'common variants' - not involved in the contractile machinery, form the missing piece to this long-awaited puzzle.

By comparing the DNA of 2,780 people with HCM and 47,486 people without HCM, the team found that the number of these common variants, in combination with the rare mutations, determine whether a person is protected or more susceptible to the disease. Another important consequence is that people who have HCM due to the common variants alone are unlikely to pass the disease onto their children.

HCM affects around 1 in 500 people in the UK, but most people who have it have few, if any, symptoms. If it's left undetected and untreated it can cause sudden cardiac death, even in young people under 35 years of age.

BHF Professor Hugh Watkins, Radcliffe Professor of Medicine and Director of the BHF Centre of Research Excellence, University of Oxford, said:

"It's now time we think differently about the way this hidden heart condition is detected and treated.

"We now have a new genetic tool that we believe will better predict which members of affected families will have a bad form of the disease, identifying those who need early intervention. It will also take away the worry for many families as it enables us to identify those who are unlikely to pass faulty genes onto their children. This will reduce the need for unnecessary genetic testing and regular follow-ups."

Professor Sir Nilesh Samani, Medical Director of the BHF and cardiologist, said:

"This research is a major step forward in our understanding of the genetics that underpin hypertrophic cardiomyopathy. It will revolutionise the way we screen people who have family members with this silent killer.

"HCM is one of the most common inherited cardiac conditions, affecting thousands of families across the UK. These discoveries will bring long-awaited answers to many families, and free many individuals from the need for regular clinical checks and the worry of whether they have also inherited the disease."

The impact of this research is wide-ranging. It also revealed that lowering blood pressure in people with HCM due to these 'common' genetic faults could help to prevent the disease from developing.
-end-
This research was also supported by the National Institute for Health Research (NIHR) Oxford Biomedical Research Centre, the Medical Research Council, Wellcome and the National Heart, Lung, and Blood Institute.

Since 2017, the BHF, through the Miles Frost Fund has invested in a scheme to increase genetic testing for HCM across the UK, investing in staff in inherited cardiac conditions clinics.

CASE STUDY

Charles, 63 from Birmingham, was diagnosed with hypertrophic cardiomyopathy (HCM) in May 2016. He was tested after having a blackout whilst cycling, which was unrelated to his HCM.

Charles says: "To be diagnosed with HCM was very distressing news to me and my wife, Louise. We have two sporty young children who were aged 13 and 16 at the time, and we were so worried that I could have passed the heart condition onto them."

Genetic testing revealed that Charles had a type of HCM caused by genetic faults called 'common variants', rather than the rare mutations known to be inheritable. This type of HCM means Charles has many more years to live than he anticipated and there's a very low chance that their children will have the heart condition too.

Charles continues: "It was a major relief to find out that my type of HCM means I'm very unlikely to pass it onto our children and that my future looks much brighter. This news defused a lot of anxiety for our family. These genetic discoveries have truly transformed our lives and will transform the lives of many other families."

Charles also has high blood pressure, and after consulting with Professor Hugh Watkins in September 2020, it was agreed that his elevated blood pressure was central to why he developed the heart condition. Charles is now receiving treatment to lower and better optimise his blood pressure to prevent his HCM from worsening in the future.

British Heart Foundation

Related Genetics Articles from Brightsurf:

Human genetics: A look in the mirror
Genome Biology and Evolution's latest virtual issue highlights recent research published in the journal within the field of human genetics.

The genetics of blood: A global perspective
To better understand the properties of blood cells, an international team led by UdeM's Guillaume Lettre has been examining variations in the DNA of 746,667 people worldwide.

Turning to genetics to treat little hearts
Researchers makes a breakthrough in understanding the mechanisms of a common congenital heart disease.

New drugs more likely to be approved if backed up by genetics
A new drug candidate is more likely to be approved for use if it targets a gene known to be linked to the disease; a finding that can help pharmaceutical companies to focus their drug development efforts.

Mapping millet genetics
New DNA sequences will aid in the development of improved millet varieties

Genetics to feed the world
A study, published in Nature Genetics, demonstrated the effectiveness of the technology known as genomic selection in a wheat improvement program.

The genetics of cancer
A research team has identified a new circular RNA (ribonucleic acid) that increases tumor activity in soft tissue and connective tissue tumors.

New results on fungal genetics
An international team of researchers has found unusual genetic features in fungi of the order Trichosporonales.

Mouse genetics influences the microbiome more than environment
Genetics has a greater impact on the microbiome than maternal birth environment, at least in mice, according to a study published this week in Applied and Environmental Microbiology.

New insights into genetics of fly longevity
Alexey Moskalev, Ph.D., Head of the Laboratory of Molecular Radiobiology and Gerontology Institute of Biology, and co-authors from the Institute of biology of Komi Science Center of RAS, Engelgard's Institute of molecular biology, involved in the study of the aging mechanisms and longevity of model animals announce the publication of a scientific article titled: 'The Neuronal Overexpression of Gclc in Drosophila melanogaster Induces Life Extension With Longevity-Associated Transcriptomic Changes in the Thorax' in Frontiers in Genetics - a leading open science platform.

Read More: Genetics News and Genetics Current Events
Brightsurf.com is a participant in the Amazon Services LLC Associates Program, an affiliate advertising program designed to provide a means for sites to earn advertising fees by advertising and linking to Amazon.com.