Unraveling the Mechanisms of Valvular Heart Disease to Identify Medical Therapy Targets: A Scientific Statement From the American Heart Association
Abstract: Valvular heart disease is a common cause of morbidity and mortality worldwide and has no effective medical therapy. Severe disease is managed with valve replacement procedures, which entail high health care–related costs and postprocedural morbidity and mortality. Robust ongoing research programs have elucidated many important molecular pathways contributing to primary valvular heart disease. However, there remain several key challenges inherent in translating research on valvular heart disease to viable molec… Show more
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Cited by 4 publications
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ImportanceCalcific aortic stenosis (AS) restricts the aortic valve opening during systole due to calcification and fibrosis of either a congenital bicuspid or a normal trileaflet aortic valve. In the US, AS affects 1% to 2% of adults older than 65 years and approximately 12% of adults older than 75 years. Worldwide, AS leads to more than 100 000 deaths annually.ObservationsCalcific AS is characterized by aortic valve leaflet lipid infiltration and inflammation with subsequent fibrosis and calcification. Symptoms due to severe AS, such as exercise intolerance, exertional dyspnea, and syncope, are associated with a 1-year mortality rate of up to 50% without aortic valve replacement. Echocardiography can detect AS and measure the severity of aortic valve dysfunction. Although progression rates vary, once aortic velocity is higher than 2 m/s, progression to severe AS occurs typically within 10 years. Severe AS is defined by an aortic velocity 4 m/s or higher, a mean gradient 40 mm Hg or higher, or a valve area less than or equal to 1.0 cm2. Management of mild to moderate AS and asymptomatic severe AS consists of patient education about the typical progression of disease; clinical and echocardiographic surveillance at intervals of 3 to 5 years for mild AS, 1 to 2 years for moderate AS, and 6 to 12 months for severe AS; and treatment of hypertension, hyperlipidemia, and cigarette smoking as indicated. When a patient with severe AS develops symptoms, surgical aortic valve replacement (SAVR) or transcatheter aortic valve implantation (TAVI) is recommended, which restores an average life expectancy; in patients aged older than 70 years with a low surgical risk, 10-year all-cause mortality was 62.7% with TAVI and 64.0% with SAVR. TAVI is associated with decreased length of hospitalization, more rapid return to normal activities, and less pain compared with SAVR. However, evidence supporting TAVI for patients aged younger than 65 years and long-term outcomes of TAVI are less well defined than for SAVR. For patients with symptomatic severe AS, the 2020 American College of Cardiology/American Heart Association guideline recommends SAVR for individuals aged 65 years and younger, SAVR or TAVI for those aged 66 to 79 years, and TAVI for individuals aged 80 years and older or those with an estimated surgical mortality of 8% or higher.ConclusionsCalcific AS is a common chronic progressive condition among older adults and is diagnosed via echocardiography. Symptomatic patients with severe AS have a mortality rate of up to 50% after 1 year, but treatment with SAVR or TAVI reduces mortality to that of age-matched control patients. The type and timing of valve replacement should be built on evidence-based guidelines, shared decision-making, and involvement of a multidisciplinary heart valve team.
ImportanceCalcific aortic stenosis (AS) restricts the aortic valve opening during systole due to calcification and fibrosis of either a congenital bicuspid or a normal trileaflet aortic valve. In the US, AS affects 1% to 2% of adults older than 65 years and approximately 12% of adults older than 75 years. Worldwide, AS leads to more than 100 000 deaths annually.ObservationsCalcific AS is characterized by aortic valve leaflet lipid infiltration and inflammation with subsequent fibrosis and calcification. Symptoms due to severe AS, such as exercise intolerance, exertional dyspnea, and syncope, are associated with a 1-year mortality rate of up to 50% without aortic valve replacement. Echocardiography can detect AS and measure the severity of aortic valve dysfunction. Although progression rates vary, once aortic velocity is higher than 2 m/s, progression to severe AS occurs typically within 10 years. Severe AS is defined by an aortic velocity 4 m/s or higher, a mean gradient 40 mm Hg or higher, or a valve area less than or equal to 1.0 cm2. Management of mild to moderate AS and asymptomatic severe AS consists of patient education about the typical progression of disease; clinical and echocardiographic surveillance at intervals of 3 to 5 years for mild AS, 1 to 2 years for moderate AS, and 6 to 12 months for severe AS; and treatment of hypertension, hyperlipidemia, and cigarette smoking as indicated. When a patient with severe AS develops symptoms, surgical aortic valve replacement (SAVR) or transcatheter aortic valve implantation (TAVI) is recommended, which restores an average life expectancy; in patients aged older than 70 years with a low surgical risk, 10-year all-cause mortality was 62.7% with TAVI and 64.0% with SAVR. TAVI is associated with decreased length of hospitalization, more rapid return to normal activities, and less pain compared with SAVR. However, evidence supporting TAVI for patients aged younger than 65 years and long-term outcomes of TAVI are less well defined than for SAVR. For patients with symptomatic severe AS, the 2020 American College of Cardiology/American Heart Association guideline recommends SAVR for individuals aged 65 years and younger, SAVR or TAVI for those aged 66 to 79 years, and TAVI for individuals aged 80 years and older or those with an estimated surgical mortality of 8% or higher.ConclusionsCalcific AS is a common chronic progressive condition among older adults and is diagnosed via echocardiography. Symptomatic patients with severe AS have a mortality rate of up to 50% after 1 year, but treatment with SAVR or TAVI reduces mortality to that of age-matched control patients. The type and timing of valve replacement should be built on evidence-based guidelines, shared decision-making, and involvement of a multidisciplinary heart valve team.
BackgroundCalcific aortic valve disease (CAVD) is the pathological remodeling of the valve leaflets which leads to heart failure and high stroke risk. While several mechanisms are known to drive cardiovascular calcification, the initial steps orchestrating the osteogenic reprogramming of cells are not fully understood. Non-canonical functions of telomerase reverse transcriptase (TERT) include service as a cofactor to stimulate gene transcription, and TERT overexpression primes mesenchymal stem cells to differentiate into osteoblasts. We investigated whether TERT contributes to osteogenic reprogramming of valve interstitial cells.MethodsBaseline transcription of TERT and osteogenic markers, senescence, DNA damage, and telomere length in valve tissue and primary aortic valve interstitial cells (VICs) from control and CAVD patients were assessed. TERT expression was depleted in cells using lentiviral vectors. Cells from Tert+/+ and Tert-/- mice were used to validate human findings. Immunofluorescence staining, proximity ligation assay, and chromatin immunoprecipitation assay were used in mechanistic experiments.ResultsTERT protein was highly expressed in calcified valve leaflets, without changes in telomere length, DNA damage, or senescence. These phenotypic features were retained in primary VICs isolated and cultured from those diseased tissues. TERT levels were increased with osteogenic or inflammatory stimuli, and genetic deletion or reduction of TERT prevented calcification of VICs isolated from humans and mice. Similar results were seen in smooth muscle cells (SMCs) and mesenchymal stem cells (MSCs). TERT and Signal Transducer and Activator of Transcription 5A/B (STAT5) colocalize and bind to the Runt-Related Transcription Factor 2 (RUNX2) gene promoter, and TERT and STAT5 co-localized in calcified valve tissues. Pharmacological inhibition of STAT5A prevented calcification in vitro.ConclusionsThese data show that non-canonical TERT activity is required for the calcification of VICs. TERT partners with STAT5A to bind to and activate the RUNX2 gene promoter. These data identify a novel therapeutic target to abate vascular calcification.Novelty and SignificanceWhat Is Known?Calcific aortic valve disease (CAVD) is the most prevalent form of aortic valve pathology. CAVD strongly correlates with age and leads to heart failure and a high risk of stroke. Currently, the only therapeutic option is valve replacement, which comes with significant healthcare costs and additional risks to patients.Runt-related transcription factor 2 (RUNX2) is the master transcription factor required for osteogenic differentiation of osteoblasts and osteogenic reprogramming of vascular cells, yet the early events driving its transcription in valve cells are not well defined.Overexpression of TERT primes mesenchymal stem cells to differentiate down the osteoblast lineage, suggesting that TERT signaling plays an important role in cell differentiation and phenotype.What New Information Does This Article Contribute?TERT protein is highly expressed in calcified aortic leaflets and valve interstitial cells, independent of changes in telomere length.Genetic loss or depletion of TERT blocks calcification in valve interstitial cells, coronary smooth muscle cells, and mesenchymal stem cells.TERT co-localizes with STAT5 in the cytosol and on the RUNX2 gene promoter, the master regulator of osteogenic transcriptional programs.Pharmacological inhibition of STAT5 prevents calcification of human valve interstitial cells, coronary smooth muscle cells, and mesenchymal stem cells.What are the clinical implications?We have identified TERT/STAT5 as novel signaling axis that promotes the early transcriptional reprogramming in cardiovascular cells. Inhibiting TERT and STAT5 interaction and activity can be leveraged for the development of pharmacological or biological therapeutic strategies to halt or prevent calcification in the aortic valve and perhaps other cardiovascular tissues.Surgical procedures are currently the only treatment option for patients with CAVD. Discovering the early events driving vascular calcification identifies novel and druggable targets for the development of non-surgical therapies.
Global, Regional, and National Burden of Valvular Heart Disease, 1990 to 2021
Background Valvular heart disease poses an escalating global health challenge with an increasing impact on mortality and disability. This study aims to comprehensively analyze the global burden of valvular heart disease. Methods and Results Using the Global Burden of Disease 2021 data, we analyzed the prevalence and disability‐adjusted life years, examining implications across demographics and geographic regions. In 2021, an estimated 54.8 million (95% uncertainty interval [UI], 43.3–67.6) cases of rheumatic heart disease, 13.3 million (95% UI, 11.4–15.2) cases of nonrheumatic calcific aortic valve disease (CAVD), and 15.5 million (95% UI, 14.5–16.7) cases of nonrheumatic degenerative mitral valve disease (DMVD) were reported globally. Despite the rising prevalence, disability‐adjusted life years declined between 1991 and 2021. Among individuals aged 70 years or older, the age‐standardized prevalences were 1803.6 per 100 000 (95% UI, 1535.5–2055.7) for CAVD and 2148.9 per 100 000 (95% UI, 2001.4–2310.1) for DMVD. Sub‐Saharan Africa had the highest age‐standardized prevalence for rheumatic heart disease; Conversely, high‐income regions led in CAVD and DMVD prevalence. Rheumatic heart disease had the highest age‐standardized prevalence of 1184.2 per 100 000 (95% UI, 932.4–1478.2) in low Socio‐Demographic Index (SDI) regions, whereas CAVD peaked at 349.8 per 100 000 (95% UI, 303.6–395.8) in high SDI regions. The most substantial increases in age‐standardized prevalences of CAVD from 1990 to 2021 occurred in the middle SDI and low‐middle SDI regions. A parallel trend was noted for DMVD. Conclusions Rheumatic heart disease remains a significant burden in low SDI regions, whereas CAVD and DMVD pose challenges in high SDI regions with aging populations.
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