Significantly increased levels of mannose‐binding lectin (MBL) in rheumatic heart disease: a beneficial role for MBL deficiency

SUMMARY Although mannose‐binding lectin (MBL) is known to be involved in the primary defense against microorganisms, there are emerging lines of evidence for an active proinflammatory role for MBL in different chronic diseases. In this study we determined the circulating levels of MBL in patients wi...

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Published in	Clinical and experimental immunology Vol. 138; no. 3; pp. 521 - 525
Main Authors	SCHAFRANSKI, M. D., STIER, A., NISIHARA, R., MESSIAS‐REASON, I. J. T.
Format	Journal Article
Language	English
Published	Oxford, UK Blackwell Science Ltd 01.12.2004 Blackwell Oxford University Press Blackwell Science Inc
Subjects	Adult Aged Biological and medical sciences Clinical Studies complement Complement C3 - analysis Complement C4 - analysis Female Fundamental and applied biological sciences. Psychology Fundamental immunology Humans Immunopathology Male Mannose-Binding Lectin - blood Mannose-Binding Lectin - deficiency Mannose-Binding Lectin - immunology mannose‐binding lectin Medical sciences Middle Aged rheumatic fever rheumatic heart disease Rheumatic Heart Disease - blood Rheumatic Heart Disease - immunology Rheumatic Heart Disease - surgery Immunopathology Mannose binding lectin Deficiency Diseases of the osteoarticular system Cardiovascular disease Complement mannose-binding lectin rheumatic heart disease complement rheumatic fever Infection Immunology Streptococcal infection Heart disease Bacteriosis Rheumatic fever
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ISSN	0009-9104 1365-2249
DOI	10.1111/j.1365-2249.2004.02645.x

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Abstract	SUMMARY Although mannose‐binding lectin (MBL) is known to be involved in the primary defense against microorganisms, there are emerging lines of evidence for an active proinflammatory role for MBL in different chronic diseases. In this study we determined the circulating levels of MBL in patients with rheumatic heart disease (RHD). A total of 100 patients (77 women, 23 men; mean age 45·8 ± 11 years, range 19–76 years) with chronic RHD, and a previous diagnosis of rheumatic fever, were studied. Transthoracic echocardiography was performed in all patients to evaluate valvular heart disease. Ninety‐nine healthy individuals matched for age, sex and ethnic origin were included as controls. MBL concentration was measured by enzyme‐linked immunosorbent assay and C3 and C4 levels by turbidimetry. MBL levels were significantly higher in patients with RHD than in healthy subjects (mean ± SEM: 3036·2 ± 298·9 ng/ml versus 1942·6 ± 185·5 ng/ml, P < 0·003). In addition, MBL deficiency was more prevalent in controls (17·1%) than in patients (9% P < 0·09). Concentrations of C4 were within the normal range (22·7 ± 0·8 mg/dl, normal: 10·0–40·0 mg/dl), while C3 concentrations were found to be elevated (109·2 ± 3·6 mg/dl, normal: 50·0–90·0 mg/dl). No correlation was observed between serum MBL levels and valve area or the type of surgical procedure. The significantly elevated circulating MBL levels in patients with RHD together with the greater prevalence of MBL deficiency in controls suggest that MBL may cause undesirable complement activation contributing to the pathogenesis of RHD.
AbstractList	Although mannose-binding lectin (MBL) is known to be involved in the primary defense against microorganisms, there are emerging lines of evidence for an active proinflammatory role for MBL in different chronic diseases. In this study we determined the circulating levels of MBL in patients with rheumatic heart disease (RHD). A total of 100 patients (77 women, 23 men; mean age 45.8 +/- 11 years, range 19-76 years) with chronic RHD, and a previous diagnosis of rheumatic fever, were studied. Transthoracic echocardiography was performed in all patients to evaluate valvular heart disease. Ninety-nine healthy individuals matched for age, sex and ethnic origin were included as controls. MBL concentration was measured by enzyme-linked immunosorbent assay and C3 and C4 levels by turbidimetry. MBL levels were significantly higher in patients with RHD than in healthy subjects (mean +/- SEM: 3036.2 +/- 298.9 ng/ml versus 1942.6 +/- 185.5 ng/ml, P <0.003). In addition, MBL deficiency was more prevalent in controls (17.1%) than in patients (9% P <0.09). Concentrations of C4 were within the normal range (22.7 +/- 0.8 mg/dl, normal: 10.0-40.0 mg/dl), while C3 concentrations were found to be elevated (109.2 +/- 3.6 mg/dl, normal: 50.0-90.0 mg/dl). No correlation was observed between serum MBL levels and valve area or the type of surgical procedure. The significantly elevated circulating MBL levels in patients with RHD together with the greater prevalence of MBL deficiency in controls suggest that MBL may cause undesirable complement activation contributing to the pathogenesis of RHD. Although mannose-binding lectin (MBL) is known to be involved in the primary defense against microorganisms, there are emerging lines of evidence for an active proinflammatory role for MBL in different chronic diseases. In this study we determined the circulating levels of MBL in patients with rheumatic heart disease (RHD). A total of 100 patients (77 women, 23 men; mean age 45.8 +/- 11 years, range 19-76 years) with chronic RHD, and a previous diagnosis of rheumatic fever, were studied. Transthoracic echocardiography was performed in all patients to evaluate valvular heart disease. Ninety-nine healthy individuals matched for age, sex and ethnic origin were included as controls. MBL concentration was measured by enzyme-linked immunosorbent assay and C3 and C4 levels by turbidimetry. MBL levels were significantly higher in patients with RHD than in healthy subjects (mean +/- SEM: 3036.2 +/- 298.9 ng/ml versus 1942.6 +/- 185.5 ng/ml, P <0.003). In addition, MBL deficiency was more prevalent in controls (17.1%) than in patients (9% P <0.09). Concentrations of C4 were within the normal range (22.7 +/- 0.8 mg/dl, normal: 10.0-40.0 mg/dl), while C3 concentrations were found to be elevated (109.2 +/- 3.6 mg/dl, normal: 50.0-90.0 mg/dl). No correlation was observed between serum MBL levels and valve area or the type of surgical procedure. The significantly elevated circulating MBL levels in patients with RHD together with the greater prevalence of MBL deficiency in controls suggest that MBL may cause undesirable complement activation contributing to the pathogenesis of RHD.Although mannose-binding lectin (MBL) is known to be involved in the primary defense against microorganisms, there are emerging lines of evidence for an active proinflammatory role for MBL in different chronic diseases. In this study we determined the circulating levels of MBL in patients with rheumatic heart disease (RHD). A total of 100 patients (77 women, 23 men; mean age 45.8 +/- 11 years, range 19-76 years) with chronic RHD, and a previous diagnosis of rheumatic fever, were studied. Transthoracic echocardiography was performed in all patients to evaluate valvular heart disease. Ninety-nine healthy individuals matched for age, sex and ethnic origin were included as controls. MBL concentration was measured by enzyme-linked immunosorbent assay and C3 and C4 levels by turbidimetry. MBL levels were significantly higher in patients with RHD than in healthy subjects (mean +/- SEM: 3036.2 +/- 298.9 ng/ml versus 1942.6 +/- 185.5 ng/ml, P <0.003). In addition, MBL deficiency was more prevalent in controls (17.1%) than in patients (9% P <0.09). Concentrations of C4 were within the normal range (22.7 +/- 0.8 mg/dl, normal: 10.0-40.0 mg/dl), while C3 concentrations were found to be elevated (109.2 +/- 3.6 mg/dl, normal: 50.0-90.0 mg/dl). No correlation was observed between serum MBL levels and valve area or the type of surgical procedure. The significantly elevated circulating MBL levels in patients with RHD together with the greater prevalence of MBL deficiency in controls suggest that MBL may cause undesirable complement activation contributing to the pathogenesis of RHD. SUMMARY Although mannose‐binding lectin (MBL) is known to be involved in the primary defense against microorganisms, there are emerging lines of evidence for an active proinflammatory role for MBL in different chronic diseases. In this study we determined the circulating levels of MBL in patients with rheumatic heart disease (RHD). A total of 100 patients (77 women, 23 men; mean age 45·8 ± 11 years, range 19–76 years) with chronic RHD, and a previous diagnosis of rheumatic fever, were studied. Transthoracic echocardiography was performed in all patients to evaluate valvular heart disease. Ninety‐nine healthy individuals matched for age, sex and ethnic origin were included as controls. MBL concentration was measured by enzyme‐linked immunosorbent assay and C3 and C4 levels by turbidimetry. MBL levels were significantly higher in patients with RHD than in healthy subjects (mean ± SEM: 3036·2 ± 298·9 ng/ml versus 1942·6 ± 185·5 ng/ml, P < 0·003). In addition, MBL deficiency was more prevalent in controls (17·1%) than in patients (9% P < 0·09). Concentrations of C4 were within the normal range (22·7 ± 0·8 mg/dl, normal: 10·0–40·0 mg/dl), while C3 concentrations were found to be elevated (109·2 ± 3·6 mg/dl, normal: 50·0–90·0 mg/dl). No correlation was observed between serum MBL levels and valve area or the type of surgical procedure. The significantly elevated circulating MBL levels in patients with RHD together with the greater prevalence of MBL deficiency in controls suggest that MBL may cause undesirable complement activation contributing to the pathogenesis of RHD. Although mannose-binding lectin (MBL) is known to be involved in the primary defense against microorganisms, there are emerging lines of evidence for an active proinflammatory role for MBL in different chronic diseases. In this study we determined the circulating levels of MBL in patients with rheumatic heart disease (RHD). A total of 100 patients (77 women, 23 men; mean age 45·8 ± 11 years, range 19–76 years) with chronic RHD, and a previous diagnosis of rheumatic fever, were studied. Transthoracic echocardiography was performed in all patients to evaluate valvular heart disease. Ninety-nine healthy individuals matched for age, sex and ethnic origin were included as controls. MBL concentration was measured by enzyme-linked immunosorbent assay and C3 and C4 levels by turbidimetry. MBL levels were significantly higher in patients with RHD than in healthy subjects (mean ± SEM: 3036·2 ± 298·9 ng/ml versus 1942·6 ± 185·5 ng/ml, P < 0·003). In addition, MBL deficiency was more prevalent in controls (17·1%) than in patients (9% P < 0·09). Concentrations of C4 were within the normal range (22·7 ± 0·8 mg/dl, normal: 10·0–40·0 mg/dl), while C3 concentrations were found to be elevated (109·2 ± 3·6 mg/dl, normal: 50·0–90·0 mg/dl). No correlation was observed between serum MBL levels and valve area or the type of surgical procedure. The significantly elevated circulating MBL levels in patients with RHD together with the greater prevalence of MBL deficiency in controls suggest that MBL may cause undesirable complement activation contributing to the pathogenesis of RHD. Although mannose-binding lectin (MBL) is known to be involved in the primary defense against microorganisms, there are emerging lines of evidence for an active proinflammatory role for MBL in different chronic diseases. In this study we determined the circulating levels of MBL in patients with rheumatic heart disease (RHD). A total of 100 patients (77 women, 23 men; mean age 45·8 ± 11 years, range 19–76 years) with chronic RHD, and a previous diagnosis of rheumatic fever, were studied. Transthoracic echocardiography was performed in all patients to evaluate valvular heart disease. Ninety-nine healthy individuals matched for age, sex and ethnic origin were included as controls. MBL concentration was measured by enzyme-linked immunosorbent assay and C3 and C4 levels by turbidimetry. MBL levels were significantly higher in patients with RHD than in healthy subjects (mean ± SEM: 3036·2 ± 298·9 ng/ml versus 1942·6 ± 185·5 ng/ml, P < 0·003). In addition, MBL deficiency was more prevalent in controls (17·1%) than in patients (9% P < 0·09). Concentrations of C4 were within the normal range (22·7 ± 0·8 mg/dl, normal: 10·0–40·0 mg/dl), while C3 concentrations were found to be elevated (109·2 ± 3·6 mg/dl, normal: 50·0–90·0 mg/dl). No correlation was observed between serum MBL levels and valve area or the type of surgical procedure. The significantly elevated circulating MBL levels in patients with RHD together with the greater prevalence of MBL deficiency in controls suggest that MBL may cause undesirable complement activation contributing to the pathogenesis of RHD. Although mannose-binding lectin (MBL) is known to be involved in the primary defense against microorganisms, there are emerging lines of evidence for an active proinflammatory role for MBL in different chronic diseases. In this study we determined the circulating levels of MBL in patients with rheumatic heart disease (RHD). A total of 100 patients (77 women, 23 men; mean age 45.8 plus or minus 11 years, range 19-76 years) with chronic RHD, and a previous diagnosis of rheumatic fever, were studied. Transthoracic echocardiography was performed in all patients to evaluate valvular heart disease. Ninety-nine healthy individuals matched for age, sex and ethnic origin were included as controls. MBL concentration was measured by enzyme-linked immunosorbent assay and C3 and C4 levels by turbidimetry. MBL levels were significantly higher in patients with RHD than in healthy subjects (mean plus or minus SEM: 3036.2 plus or minus 298.9 ng-ml versus 1942.6 plus or minus 185.5 ng-ml, P < 0.003). In addition, MBL deficiency was more prevalent in controls (17.1%) than in patients (9% P < 0.09). Concentrations of C4 were within the normal range (22.7 plus or minus 0.8 mg-dl, normal: 10.0-40.0 mg-dl), while C3 concentrations were found to be elevated (109.2 plus or minus 3.6 mg-dl, normal: 50.0-90.0 mg-dl). No correlation was observed between serum MBL levels and valve area or the type of surgical procedure. The significantly elevated circulating MBL levels in patients with RHD together with the greater prevalence of MBL deficiency in controls suggest that MBL may cause undesirable complement activation contributing to the pathogenesis of RHD.
Author	SCHAFRANSKI, M. D. MESSIAS‐REASON, I. J. T. NISIHARA, R. STIER, A.
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Keywords	Immunopathology Mannose binding lectin Deficiency Diseases of the osteoarticular system Cardiovascular disease Complement mannose-binding lectin rheumatic heart disease complement rheumatic fever Infection Immunology Streptococcal infection Heart disease Bacteriosis Rheumatic fever
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Snippet	SUMMARY Although mannose‐binding lectin (MBL) is known to be involved in the primary defense against microorganisms, there are emerging lines of evidence for... Although mannose-binding lectin (MBL) is known to be involved in the primary defense against microorganisms, there are emerging lines of evidence for an active...
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SubjectTerms	Adult Aged Biological and medical sciences Clinical Studies complement Complement C3 - analysis Complement C4 - analysis Female Fundamental and applied biological sciences. Psychology Fundamental immunology Humans Immunopathology Male Mannose-Binding Lectin - blood Mannose-Binding Lectin - deficiency Mannose-Binding Lectin - immunology mannose‐binding lectin Medical sciences Middle Aged rheumatic fever rheumatic heart disease Rheumatic Heart Disease - blood Rheumatic Heart Disease - immunology Rheumatic Heart Disease - surgery
Title	Significantly increased levels of mannose‐binding lectin (MBL) in rheumatic heart disease: a beneficial role for MBL deficiency
URI	https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fj.1365-2249.2004.02645.x https://www.ncbi.nlm.nih.gov/pubmed/15544631 https://www.proquest.com/docview/196897546 https://www.proquest.com/docview/17846569 https://www.proquest.com/docview/67073874 https://pubmed.ncbi.nlm.nih.gov/PMC1809230
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