Hypertrophic cardiomyopathy (HCM/CMH) is a primary myocardial disorder with an autosomal dominant pattern of inheritance that is characterized by hypertrophy of the left ventricles with histological features of myocyte hypertrophy, myofibrillar disarray, and interstitial fibrosis. HCM is one of the most common inherited cardiac disorders, with a prevalence in young adults of 1 in 500. Hundreds of mutations in the genes that encode protein constituents of the sarcomere have been identified in HCM. These mutations increase the Ca2+ sensitivity of cardiac myofilaments. Increased myofilament Ca2+ sensitivity is expected to increase the ATP utilization by actomyosin at submaximal Ca2+ concentrations, which might cause an imbalance in energy supply and demand in the heart under severe stress. The inefficient use of ATP suggests that an inability to maintain normal ATP levels could be the central abnormality. This theory might be supported by the discovery of the role of a mutant PRKAG2 gene in HCM, which in active form acts as a central sensing mechanism protecting cells from depletion of ATP supplies. The increase in the myofilament Ca2+ sensitivity well account for the diastolic dysfunction of model animals as well as human patients of HCM. It has been widely proposed that left ventricular hypertrophy is not a primary manifestation but develops as compensatory response to sarcomere dysfunction.
Category
Cardiovascular disease
Brite
Human diseases in ICD-11 classification [BR:br08403]
11 Diseases of the circulatory system
Diseases of the myocardium or cardiac chambers
BC43 Cardiomyopathy
H00292 Hypertrophic cardiomyopathy
Pathway-based classification of diseases [BR:br08402]
Signal transduction
nt06528 Calcium signaling
H00292 Hypertrophic cardiomyopathy
Cellular process
nt06539 Cytoskeleton in muscle cells
H00292 Hypertrophic cardiomyopathy
Blair E, Redwood C, Ashrafian H, Oliveira M, Broxholme J, Kerr B, Salmon A, Ostman-Smith I, Watkins H
Title
Mutations in the gamma(2) subunit of AMP-activated protein kinase cause familial hypertrophic cardiomyopathy: evidence for the central role of energy compromise in disease pathogenesis.
Kimura A, Harada H, Park JE, Nishi H, Satoh M, Takahashi M, Hiroi S, Sasaoka T, Ohbuchi N, Nakamura T, Koyanagi T, Hwang TH, Choo JA, Chung KS, Hasegawa A, Nagai R, Okazaki O, Nakamura H, Matsuzaki M, Sakamoto T, Toshima H, Koga Y, Imaizumi T, Sasazuki T
Title
Mutations in the cardiac troponin I gene associated with hypertrophic cardiomyopathy.
Geier C, Perrot A, Ozcelik C, Binner P, Counsell D, Hoffmann K, Pilz B, Martiniak Y, Gehmlich K, van der Ven PF, Furst DO, Vornwald A, von Hodenberg E, Nurnberg P, Scheffold T, Dietz R, Osterziel KJ
Title
Mutations in the human muscle LIM protein gene in families with hypertrophic cardiomyopathy.
PLN-encoded phospholamban mutation in a large cohort of hypertrophic cardiomyopathy cases: summary of the literature and implications for genetic testing.
Purevjav E, Arimura T, Augustin S, Huby AC, Takagi K, Nunoda S, Kearney DL, Taylor MD, Terasaki F, Bos JM, Ommen SR, Shibata H, Takahashi M, Itoh-Satoh M, McKenna WJ, Murphy RT, Labeit S, Yamanaka Y, Machida N, Park JE, Alexander PM, Weintraub RG, Kitaura Y, Ackerman MJ, Kimura A, Towbin JA
Title
Molecular basis for clinical heterogeneity in inherited cardiomyopathies due to myopalladin mutations.
Hayashi T, Arimura T, Itoh-Satoh M, Ueda K, Hohda S, Inagaki N, Takahashi M, Hori H, Yasunami M, Nishi H, Koga Y, Nakamura H, Matsuzaki M, Choi BY, Bae SW, You CW, Han KH, Park JE, Knoll R, Hoshijima M, Chien KR, Kimura A
Title
Tcap gene mutations in hypertrophic cardiomyopathy and dilated cardiomyopathy.
Valdes-Mas R, Gutierrez-Fernandez A, Gomez J, Coto E, Astudillo A, Puente DA, Reguero JR, Alvarez V, Moris C, Leon D, Martin M, Puente XS, Lopez-Otin C
Title
Mutations in filamin C cause a new form of familial hypertrophic cardiomyopathy.
Ochoa JP, Sabater-Molina M, Garcia-Pinilla JM, Mogensen J, Restrepo-Cordoba A, Palomino-Doza J, Villacorta E, Martinez-Moreno M, Ramos-Maqueda J, Zorio E, Pena-Pena ML, Garcia-Granja PE, Rodriguez-Palomares JF, Cardenas-Reyes IJ, de la Torre-Carpente MM, Bautista-Paves A, Akhtar MM, Cicerchia MN, Bilbao-Quesada R, Mogollon-Jimenez MV, Salazar-Mendiguchia J, Mesa Latorre JM, Arnaez B, Olavarri-Miguel I, Fuentes-Canamero ME, Lamounier A Jr, Perez Ruiz JM, Climent-Paya V, Perez-Sanchez I, Trujillo-Quintero JP, Lopes LR, Reparaz-Andrade A, Marin-Iglesias R, Rodriguez-Vilela A, Sandin-Fuentes M, Garrote JA, Cortel-Fuster A, Lopez-Garrido M, Fontalba-Romero A, Ripoll-Vera T, Llano-Rivas I, Fernandez-Fernandez X, Isidoro-Garcia M, Garcia-Giustiniani D, Barriales-Villa R, Ortiz-Genga M, Garcia-Pavia P, Elliott PM, Gimeno JR, Monserrat L
Title
Formin Homology 2 Domain Containing 3 (FHOD3) Is a Genetic Basis for Hypertrophic Cardiomyopathy.
Hedberg-Oldfors C, Abramsson A, Osborn DPS, Danielsson O, Fazlinezhad A, Nilipour Y, Hubbert L, Nennesmo I, Visuttijai K, Bharj J, Petropoulou E, Shoreim A, Vona B, Ahangari N, Lopez MD, Doosti M, Banote RK, Maroofian R, Edling M, Taherpour M, Zetterberg H, Karimiani EG, Oldfors A, Jamshidi Y
Title
Cardiomyopathy with lethal arrhythmias associated with inactivation of KLHL24.
Nemaline myopathy [DS:H00698] Central core disease [DS:H00699] Centronuclear myopathy [DS:H00700] Congenital fiber type disproportion [DS:H00701] Multi-minicore disease [DS:H01310] Early-onset myopathy, areflexia, respiratory distress, and dysphagia [DS:H02321] Native American myopathy [DS:H02084] Inclusion body myopathy 3 [DS:H01229] Scapuloperoneal myopathy, MYH7-related [DS:H00656] Myosin storage myopathy [DS:H00703] Compton-North congenital myopathy (MYPCN) Congenital myopathy with fast-twitch (type II) fiber atrophy (MYOFTA) Congenital myopathy with diaphragmatic defects, respiratory insufficiency, and dysmorphic facies (MYODRIF) Congenital myopathy with structured cores and Z-line abnormalities (MYOCOZ) Congenital myopathy with tremor (MYOTREM) Progressive congenital myopathy with scoliosis (MYOSCO) Myopathy, congenital proximal, with minicore lesions (MYOPMIL) Congenital myopathy with neuropathy and deafness (CMND)
Description
The congenital myopathies are a group of genetic muscle disorders characterised clinically by hypotonia and weakness, usually from birth, and a static or slowly progressive clinical course. Congenital myopathies are mainly defined by the predominant histopathological features which include nemaline rods, central cores, multiple minicores, central nuclei, and selective hypotrophy of type 1 fibres. Based on these features, individual congenital myopathies such as nemaline myopathy, central core disease, multi-minicore disease, centronuclear myopathy, and congenital fiber type disproportion were reported. Over the past decade there have been major advances in defining the genetic basis of the majority of congenital myopathy subtypes. However the relationship between each congenital myopathy, defined on histological grounds, and the genetic cause is complex. Many of the congenital myopathies are due to mutations in more than one gene, and mutations in the same gene can cause different muscle pathologies.
Category
Nervous system disease; Musculoskeletal disease
Brite
Human diseases in ICD-11 classification [BR:br08403]
08 Diseases of the nervous system
Diseases of neuromuscular junction or muscle
Primary disorders of muscles
8C72 Congenital myopathies
H01810 Congenital myopathy
Pathway-based classification of diseases [BR:br08402]
Signal transduction
nt06528 Calcium signaling
H01810 Congenital myopathy
Cellular process
nt06535 Efferocytosis
H01810 Congenital myopathy
nt06539 Cytoskeleton in muscle cells
H01810 Congenital myopathy
Ferreiro A, Monnier N, Romero NB, Leroy JP, Bonnemann C, Haenggeli CA, Straub V, Voss WD, Nivoche Y, Jungbluth H, Lemainque A, Voit T, Lunardi J, Fardeau M, Guicheney P
Title
A recessive form of central core disease, transiently presenting as multi-minicore disease, is associated with a homozygous mutation in the ryanodine receptor type 1 gene.
Moghadaszadeh B, Petit N, Jaillard C, Brockington M, Quijano Roy S, Merlini L, Romero N, Estournet B, Desguerre I, Chaigne D, Muntoni F, Topaloglu H, Guicheney P
Title
Mutations in SEPN1 cause congenital muscular dystrophy with spinal rigidity and restrictive respiratory syndrome.
Carmignac V, Salih MA, Quijano-Roy S, Marchand S, Al Rayess MM, Mukhtar MM, Urtizberea JA, Labeit S, Guicheney P, Leturcq F, Gautel M, Fardeau M, Campbell KP, Richard I, Estournet B, Ferreiro A
Title
C-terminal titin deletions cause a novel early-onset myopathy with fatal cardiomyopathy.
Logan CV, Lucke B, Pottinger C, Abdelhamed ZA, Parry DA, Szymanska K, Diggle CP, van Riesen A, Morgan JE, Markham G, Ellis I, Manzur AY, Markham AF, Shires M, Helliwell T, Scoto M, Hubner C, Bonthron DT, Taylor GR, Sheridan E, Muntoni F, Carr IM, Schuelke M, Johnson CA
Title
Mutations in MEGF10, a regulator of satellite cell myogenesis, cause early onset myopathy, areflexia, respiratory distress and dysphagia (EMARDD).
Ravenscroft G, Zaharieva IT, Bortolotti CA, Lambrughi M, Pignataro M, Borsari M, Sewry CA, Phadke R, Haliloglu G, Ong R, Goullee H, Whyte T, Consortium UK, Manzur A, Talim B, Kaya U, Osborn DPS, Forrest ARR, Laing NG, Muntoni F
Title
Bi-allelic mutations in MYL1 cause a severe congenital myopathy.
van de Locht M, Donkervoort S, de Winter JM, Conijn S, Begthel L, Kusters B, Mohassel P, Hu Y, Medne L, Quinn C, Moore SA, Foley AR, Seo G, Hwee DT, Malik FI, Irving T, Ma W, Granzier HL, Kamsteeg EJ, Immadisetty K, Kekenes-Huskey P, Pinto JR, Voermans N, Bonnemann CG, Ottenheijm CA
Title
Pathogenic variants in TNNC2 cause congenital myopathy due to an impaired force response to calcium.
Shashi V, Geist J, Lee Y, Yoo Y, Shin U, Schoch K, Sullivan J, Stong N, Smith E, Jasien J, Kranz P, Lee Y, Shin YB, Wright NT, Choi M, Kontrogianni-Konstantopoulos A
Title
Heterozygous variants in MYBPC1 are associated with an expanded neuromuscular phenotype beyond arthrogryposis.
Zaharieva IT, Thor MG, Oates EC, van Karnebeek C, Hendson G, Blom E, Witting N, Rasmussen M, Gabbett MT, Ravenscroft G, Sframeli M, Suetterlin K, Sarkozy A, D'Argenzio L, Hartley L, Matthews E, Pitt M, Vissing J, Ballegaard M, Krarup C, Slordahl A, Halvorsen H, Ye XC, Zhang LH, Lokken N, Werlauff U, Abdelsayed M, Davis MR, Feng L, Phadke R, Sewry CA, Morgan JE, Laing NG, Vallance H, Ruben P, Hanna MG, Lewis S, Kamsteeg EJ, Mannikko R, Muntoni F
Title
Loss-of-function mutations in SCN4A cause severe foetal hypokinesia or 'classical' congenital myopathy.
Miyatake S, Mitsuhashi S, Hayashi YK, Purevjav E, Nishikawa A, Koshimizu E, Suzuki M, Yatabe K, Tanaka Y, Ogata K, Kuru S, Shiina M, Tsurusaki Y, Nakashima M, Mizuguchi T, Miyake N, Saitsu H, Ogata K, Kawai M, Towbin J, Nonaka I, Nishino I, Matsumoto N
Title
Biallelic Mutations in MYPN, Encoding Myopalladin, Are Associated with Childhood-Onset, Slowly Progressive Nemaline Myopathy.
Dilated cardiomyopathy (DCM) is a heart muscle disease characterised by dilation and impaired contraction of the left or both ventricles that results in progressive heart failure and sudden cardiac death from ventricular arrhythmia. Genetically inherited forms of DCM ("familial" DCM) have been identified in 25-35% of patients presenting with this disease, and the inherited gene defects are an important cause of "familial" DCM. The pathophysiology may be separated into two categories: defects in force generation and defects in force transmission. In cases where an underlying pathology cannot be identified, the patient is diagnosed with an "idiopathic" DCM. Current hypotheses regarding causes of "idiopathic" DCM focus on myocarditis induced by enterovirus and subsequent autoimmune myocardium impairments. Antibodies to the beta1-adrenergic receptor (beta1AR), which are detected in a substantial number of patients with "idiopathic" DCM, may increase the concentration of intracellular cAMP and intracellular Ca2+, a condition often leading to a transient hyper-performance of the heart followed by depressed heart function and heart failure.
Category
Cardiovascular disease
Brite
Human diseases in ICD-11 classification [BR:br08403]
11 Diseases of the circulatory system
Diseases of the myocardium or cardiac chambers
BC43 Cardiomyopathy
H00294 Dilated cardiomyopathy
Pathway-based classification of diseases [BR:br08402]
Signal transduction
nt06528 Calcium signaling
H00294 Dilated cardiomyopathy
Cellular process
nt06539 Cytoskeleton in muscle cells
H00294 Dilated cardiomyopathy
Vatta M, Mohapatra B, Jimenez S, Sanchez X, Faulkner G, Perles Z, Sinagra G, Lin JH, Vu TM, Zhou Q, Bowles KR, Di Lenarda A, Schimmenti L, Fox M, Chrisco MA, Murphy RT, McKenna W, Elliott P, Bowles NE, Chen J, Valle G, Towbin JA
Title
Mutations in Cypher/ZASP in patients with dilated cardiomyopathy and left ventricular non-compaction.
Hayashi T, Arimura T, Itoh-Satoh M, Ueda K, Hohda S, Inagaki N, Takahashi M, Hori H, Yasunami M, Nishi H, Koga Y, Nakamura H, Matsuzaki M, Choi BY, Bae SW, You CW, Han KH, Park JE, Knoll R, Hoshijima M, Chien KR, Kimura A
Title
Tcap gene mutations in hypertrophic cardiomyopathy and dilated cardiomyopathy.
Carniel E, Taylor MR, Sinagra G, Di Lenarda A, Ku L, Fain PR, Boucek MM, Cavanaugh J, Miocic S, Slavov D, Graw SL, Feiger J, Zhu XZ, Dao D, Ferguson DA, Bristow MR, Mestroni L
Title
Alpha-myosin heavy chain: a sarcomeric gene associated with dilated and hypertrophic phenotypes of cardiomyopathy.
Norton N, Li D, Rieder MJ, Siegfried JD, Rampersaud E, Zuchner S, Mangos S, Gonzalez-Quintana J, Wang L, McGee S, Reiser J, Martin E, Nickerson DA, Hershberger RE
Title
Genome-wide studies of copy number variation and exome sequencing identify rare variants in BAG3 as a cause of dilated cardiomyopathy.
Ganapathi M, Argyriou L, Martinez-Azorin F, Morlot S, Yigit G, Lee TM, Auber B, von Gise A, Petrey DS, Thiele H, Cyganek L, Sabater-Molina M, Ahimaz P, Cabezas-Herrera J, Sorli-Garcia M, Zibat A, Siegelin MD, Burfeind P, Buchovecky CM, Hasenfuss G, Honig B, Li Y, Iglesias AD, Wollnik B
Title
Bi-allelic missense disease-causing variants in RPL3L associate neonatal dilated cardiomyopathy with muscle-specific ribosome biogenesis.
Jones EG, Mazaheri N, Maroofian R, Zamani M, Seifi T, Sedaghat A, Shariati G, Jamshidi Y, Allen HD, Wehrens XHT, Galehdari H, Landstrom AP
Title
Analysis of enriched rare variants in JPH2-encoded junctophilin-2 among Greater Middle Eastern individuals reveals a novel homozygous variant associated with neonatal dilated cardiomyopathy.
Hakui H, Kioka H, Miyashita Y, Nishimura S, Matsuoka K, Kato H, Tsukamoto O, Kuramoto Y, Takuwa A, Takahashi Y, Saito S, Ohta K, Asanuma H, Fu HY, Shinomiya H, Yamada N, Ohtani T, Sawa Y, Kitakaze M, Takashima S, Sakata Y, Asano Y
Title
Loss-of-function mutations in the co-chaperone protein BAG5 cause dilated cardiomyopathy requiring heart transplantation.
Verhagen JMA, van den Born M, van der Linde HC, G J Nikkels P, Verdijk RM, Kivlen MH, van Unen LMA, Baas AF, Ter Heide H, van Osch-Gevers L, Hoogeveen-Westerveld M, Herkert JC, Bertoli-Avella AM, van Slegtenhorst MA, Wessels MW, Verheijen FW, Hassel D, Hofstra RMW, Hegde RS, van Hasselt PM, van Ham TJ, van de Laar IMBH
Title
Biallelic Variants in ASNA1, Encoding a Cytosolic Targeting Factor of Tail-Anchored Proteins, Cause Rapidly Progressive Pediatric Cardiomyopathy.
Restrictive cardiomyopathy (RCM) is an uncommon heart muscle disorder characterized by impaired ventricular filling and increased stiffness of the myocardium with diastolic dysfunction, resulting in atrial enlargement and elevated systemic and pulmonary venous pressure. To date, mutations have been identified in the cardiac genes.
Category
Cardiovascular disease
Brite
Human diseases in ICD-11 classification [BR:br08403]
11 Diseases of the circulatory system
Diseases of the myocardium or cardiac chambers
BC43 Cardiomyopathy
H01219 Restrictive cardiomyopathy
Pathway-based classification of diseases [BR:br08402]
Cellular process
nt06539 Cytoskeleton in muscle cells
H01219 Restrictive cardiomyopathy
Purevjav E, Arimura T, Augustin S, Huby AC, Takagi K, Nunoda S, Kearney DL, Taylor MD, Terasaki F, Bos JM, Ommen SR, Shibata H, Takahashi M, Itoh-Satoh M, McKenna WJ, Murphy RT, Labeit S, Yamanaka Y, Machida N, Park JE, Alexander PM, Weintraub RG, Kitaura Y, Ackerman MJ, Kimura A, Towbin JA
Title
Molecular basis for clinical heterogeneity in inherited cardiomyopathies due to myopalladin mutations.
