Myosin heavy chain, α isoform (MHC-α) is a

protein Proteins are large biomolecules and macromolecules that comprise one or more long chains of amino acid residues. Proteins perform a vast array of functions within organisms, including catalysing metabolic reactions, DNA replication, respo ...

that in humans is encoded by the ''MYH6''

gene In biology, the word gene (from , ; "...Wilhelm Johannsen coined the word gene to describe the Mendelian units of heredity..." meaning ''generation'' or ''birth'' or ''gender'') can have several different meanings. The Mendelian gene is a ba ...

. This isoform is distinct from the ventricular/slow

myosin heavy chain Myosins () are a superfamily of motor proteins best known for their roles in muscle contraction and in a wide range of other motility processes in eukaryotes. They are ATP-dependent and responsible for actin-based motility. The first myosin (M2 ...

isoform A protein isoform, or "protein variant", is a member of a set of highly similar proteins that originate from a single gene or gene family and are the result of genetic differences. While many perform the same or similar biological roles, some iso ...

MYH7 MYH7 is a gene encoding a myosin heavy chain beta (MHC-β) isoform (slow twitch) expressed primarily in the heart, but also in skeletal muscles (type I fibers). This isoform is distinct from the fast isoform of cardiac myosin heavy chain, MYH6, re ...

, referred to as MHC-β. MHC-α

is expressed predominantly in human cardiac atria, exhibiting only minor expression in human cardiac ventricles. It is the major protein comprising the

cardiac muscle Cardiac muscle (also called heart muscle, myocardium, cardiomyocytes and cardiac myocytes) is one of three types of vertebrate muscle tissues, with the other two being skeletal muscle and smooth muscle. It is an involuntary, striated muscle th ...

thick filament, and functions in cardiac

muscle contraction Muscle contraction is the activation of tension-generating sites within muscle cells. In physiology, muscle contraction does not necessarily mean muscle shortening because muscle tension can be produced without changes in muscle length, such as ...

. Mutations in ''MYH6'' have been associated with late-onset

hypertrophic cardiomyopathy Hypertrophic cardiomyopathy (HCM, or HOCM when obstructive) is a condition in which the heart becomes thickened without an obvious cause. The parts of the heart most commonly affected are the interventricular septum and the ventricles. This r ...

atrial septal defect Atrial septal defect (ASD) is a congenital heart defect in which blood flows between the atria (upper chambers) of the heart. Some flow is a normal condition both pre-birth and immediately post-birth via the foramen ovale; however, when this d ...

s and

sick sinus syndrome Sinus node dysfunction (SND), also known as sick sinus syndrome (SSS), is a group of abnormal heart rhythms ( arrhythmias) usually caused by a malfunction of the sinus node, the heart's primary pacemaker. Tachycardia-bradycardia syndrome is a varia ...

Structure

MHC-α is a 224 kDa protein composed of 1939 amino acids. The ''MYH6'' gene is located on chromosome 14q12, approximately ~4kb downstream of the ''MYH7'' gene encoding the other major

isoform of

, MHC-β. MHC-α is a hexameric, asymmetric motor forming the bulk of the thick filament in cardiac muscle; it is the predominant

expressed in human cardiac atria, and the lesser expressed

(7%) expressed in human cardiac ventricles. MHC-α is composed of N-terminal globular heads (20 nm) that project laterally, and

alpha helical The alpha helix (α-helix) is a common motif in the secondary structure of proteins and is a right hand-helix conformation in which every backbone N−H group hydrogen bonds to the backbone C=O group of the amino acid located four residues ear ...

tails (130 nm) that dimerize and multimerize into a

coiled-coil A coiled coil is a structural motif in proteins in which 2–7 alpha helix, alpha-helices are coiled together like the strands of a rope. (Protein dimer, Dimers and Protein trimer, trimers are the most common types.) Many coiled coil-type protei ...

motif to form the light meromyosin (LMM), thick filament rod. The 9 nm

alpha-helical The alpha helix (α-helix) is a common motif in the secondary structure of proteins and is a right hand-helix conformation in which every backbone N−H group hydrogen bonds to the backbone C=O group of the amino acid located four residues e ...

neck region of each MHC-α head non-covalently binds two light chains, atrial essential light chain (

MYL4 Atrial Light Chain-1 (ALC-1), also known as Essential Light Chain, Atrial is a protein that in humans is encoded by the ''MYL4'' gene. ALC-1 is expressed in fetal cardiac ventricular and fetal skeletal muscle, as well as fetal and adult cardiac ...

) and atrial regulatory light chain (

MYL7 Atrial Light Chain-2 (ALC-2) also known as Myosin regulatory light chain 2, atrial isoform (MLC2a) is a protein that in humans is encoded by the ''MYL7'' gene. ALC-2 expression is restricted to cardiac muscle atria in healthy individuals, where it ...

). Approximately 300 myosin molecules constitute one thick filament.

Function

MHC-α

is abundantly expressed in both cardiac atria and cardiac ventricles during embryonic development. Following birth, cardiac ventricles predominantly express the MHC-β

and cardiac atria predominantly express the MHC-α isoform. The two isoforms of cardiac MHC, α and β, display 93% homology. MHC-α and MHC-β display significantly different enzymatic properties, with α having 150-300% the contractile velocity and 60-70% actin attachment time as that of β. It is the enzymatic activity of the ATPase in the myosin head that cyclically hydrolyzes ATP, fueling the myosin power stroke. This process converts chemical to mechanical energy, and propels shortening of the sarcomeres in order to generate intraventricular pressure and power. An accepted mechanism for this process is that ADP-bound myosin attaches to actin while thrusting tropomyosin inwards, then the S1-S2 myosin lever arm rotates ~70° about the converter domain and drives actin filaments towards the M-line.

Clinical significance

The first mutation identified in ''MYH6'' by Niimura et al. was found in a patient population with late-onset

. An Arg to Gln variant was found at position 795 ( Arg795 Gln). This mutation was located in a region of MHC-α shown to be important for binding essential light chain. Subsequent studies have also found additional mutations in ''MYH6'' linked to both

and

dilated cardiomyopathy Dilated cardiomyopathy (DCM) is a condition in which the heart becomes enlarged and cannot pump blood effectively. Symptoms vary from none to feeling tired, leg swelling, and shortness of breath. It may also result in chest pain or fainting. Co ...

. Mutations in ''MYH6'' cause atrial septal defect. One underlying mutation is a missense substitution at

Ile Ile may refer to: * iLe, a Puerto Rican singer * Ile District (disambiguation), multiple places * Ilé-Ifẹ̀, an ancient Yoruba city in south-western Nigeria * Interlingue (ISO 639:ile), a planned language * Isoleucine, an amino acid * Anothe ...

820 Asn, which alters the association of alpha-myosin heavy chain with regulatory light chain. ''MYH6'' has been shown to be the predominant sarcomeric disease

for secundum-type atrial septal defects. Additional studies unveiled an association between ''MYH6'' mutations and a wide array of cardiac malformations in addition to

, including one non-sense mutation, one splicing site mutation and seven non-synonymous coding mutations. ''MYH6'' has also been identified as a susceptibility gene for

. A missense mutation at Arg721 Trp was identified as conferring a lifetime risk of 50% for carriers. An in-frame 3-bp deletion mutation in ''MYH6'', in which one residue in MHC-α is removed, enhances the binding of MHC-α to myosin binding protein-C and disrupts normal

sarcomere A sarcomere (Greek σάρξ ''sarx'' "flesh", μέρος ''meros'' "part") is the smallest functional unit of striated muscle tissue. It is the repeating unit between two Z-lines. Skeletal muscles are composed of tubular muscle cells (called musc ...

function and cardiac atrial

conduction velocity In neuroscience, nerve conduction velocity (CV) is an important aspect of nerve conduction studies. It is the speed at which an electrochemical impulse propagates down a neural pathway. Conduction velocities are affected by a wide array of factor ...

Cardiomyopathy from mutation R403Q

Hypertrophic cardiomyopathy (HCM) is a cardiac disease that has some characteristic abnormalities including hypertrophy of the septal wall, disorganized cardiac myocytes, and increase fibrosis within the myocardium. The majority of familial HCM cases have been linked to a mutation in beta-myosin heavy chains converting a single amino acid from an arginine to a glutamine at the 403rd position. More than half of affected people die by the age of 40 because of HCM due to R403Q. The R403Q mutation interferes with the beta-myosin heavy chain and therefore greatly hinders the functionality of the heart muscle. Specifically, the affected muscle cells have slower contractile velocities, have depressed actin-activated ATPase rates, and have increased stiffness. Due to the fact that the cause of the R403Q mutation lies within the region that encodes for the globular myosin head, alterations in the myosin head structure greatly impairs its ability to strongly interact with actin and form a stable cross-bridge. The development of HCM is multifaceted, but the R403Q mutation is one of the most influential risk factors. Of the hundreds of pathogenic mutations that give rise to HCM, R403Q mutations in myosin heavy chain genes are present in over half of them. Since HCM is such a debilitating disease, investigation into possible therapeutic approaches to treat some of the causes of HCM- or at the very least provide palliative care for people affected by this condition- is of extreme importance.

Myh6 knockdown as a therapy for HCM

HCM is an autosomal dominant disease and conventional treatments are ineffective. Gene therapy is currently being investigated as a possible treatment option. Myh6 gene is a possible target for gene therapy. Infected with adeno-associated vectors carrying the siRNA to silence the mutant Mhy6 gene, inhibited expression of R403Q myosin postponed development of HCM for 6 months. Without the dysfunctional myosin protein the heart functioned more efficiently and this prevents the development of myocyte hypertrophy as a compensatory mechanism. Not only was there an absence of HCM, but fibrosis and myocyte disorganization was greatly reduced in the knockdown mice. The proposed mechanism for this is the expression of a more normalized ratio of α-myosin chain to β-myosin chain proteins. This enables proper assembly of myofibrils and thus, more organized sarcomeres. All of the mice in the study developed HCM after 11 months and that the gene therapy was only temporarily therapeutic.

References

External links

GeneReviews/NIH/NCBI/UW entry on Familial Hypertrophic Cardiomyopathy Overview
{{Cytoskeletal Proteins