Study reveals links to abnormal rhythms behind sudden death, heart damage
December 21st, 2010 - 5:15 pm ICT by ANILondon, Dec 21 (ANI): An international team of scientists has identified DNA sequence variations linked with the heart’s electrical rhythm in several surprising regions among 22 locations across the human genome.
Among the notable discoveries were variations in two side-by-side genes that regulate electrically charged particles to produce signals that start contraction of the heart and register as pulsing waves seen on heart monitors.
One of the genes, named SCN5A, was known to be involved in controlling how signals start from specialized muscle cells and travel across the heart to cause its rhythmic contractions. Its neighbor, SCN10A, previously was an unsuspected player in cardiac electrical activity.
The study’s genome-wide hunt focused on the QRS interval, a measure of electrical depolarization in the main lower pumping chambers of the heart (ventricles), easily detectable with a simple EKG machine.
A prolonged QRS interval suggests a diseased ventricular conduction system and has been associated with increased risk for sudden cardiac death, among other heart disorders.
Fifteen genome-wide association or so-called GWAS studies among healthy American and European populations who had EKGs were combined for large-scale meta-analysis.
Each GWAS reported what effects were observed at which locations in a scan of 2.5 million single nucleotide polymorphisms (SNPs) throughout the genome. Pronounced snips, SNPs are sites where a single letter in the DNA code is variable. Study subjects whose EKGs showed prolonged QRS intervals had SNPs in common with each other.
“The size of the study really gave us the power to identify many genes not previously suspected to play a role in heart conduction,” said Dan Arking of the Johns Hopkins University.
To further investigate one of the 22 regions deemed significant, team members used mouse hearts to find where in the heart the ion channel protein products of the SCN10A gene form, locating an abundance of them in the fibers that conduct electrical signals.
Next, the researchers treated mice with a drug that blocked the function of the ion channels produced by the SCN10A gene, and used EKGs to show that the QRS duration was extended in these animals.
“These genes potentially could be very useful for identifying individuals for whom adverse drug reactions may cause life threatening cardiac events,” said Arking.
The findings were reported in the Nature Genetics. (ANI)
- Study uncovers DNA sequence variations that make the heart beat - Nov 15, 2010
- Largest genetic study of anorexia nervosa detects common, rare variants - Nov 20, 2010
- Sudden cardiac death tied to slower electrical currents - May 22, 2012
- New genetic links to ovarian cancer risk discovered - Sep 20, 2010
- Kidney gene linked to increased heart failure risk - Jan 18, 2011
- Further research needed in disease gene studies, say scientists - Jan 26, 2010
- Gene duplication discovered in patients with major depression - Dec 02, 2010
- Scientists find 13 new genes linked to heart diseases - Mar 07, 2011
- Additional genes linked to age-related macular degeneration identified - Apr 13, 2010
- Previously unrecognized susceptibility factor for bipolar disorder identified - Mar 04, 2011
- New approach helps pinpoint genes behind common diseases - Apr 30, 2010
- Genes that aid antimalarial drug resistance identified - Apr 22, 2011
- Gene that regulates heartbeat discovered - Jan 11, 2010
- Gene linked to childhood asthma identified - Dec 24, 2009
- Chromosome 11 implicated in alcohol dependence - Mar 02, 2010
Tags: abnormal rhythms, chambers of the heart, channel protein, conduction system, dna code, dna sequence, ekg machine, electrical rhythm, european populations, heart damage, heart disorders, heart ventricles, human genome, johns hopkins university, muscle cells, nucleotide polymorphisms, protein products, qrs interval, sequence variations, sudden cardiac death