Author
Listed:
- Carola Marzi
- Eva Albrecht
- Pirro G Hysi
- Vasiliki Lagou
- Melanie Waldenberger
- Anke Tönjes
- Inga Prokopenko
- Katharina Heim
- Hannah Blackburn
- Janina S Ried
- Marcus E Kleber
- Massimo Mangino
- Barbara Thorand
- Annette Peters
- Christopher J Hammond
- Harald Grallert
- Bernhard O Boehm
- Peter Kovacs
- Ludwig Geistlinger
- Holger Prokisch
- Bernhard R Winkelmann
- Tim D Spector
- H-Erich Wichmann
- Michael Stumvoll
- Nicole Soranzo
- Winfried März
- Wolfgang Koenig
- Thomas Illig
- Christian Gieger
Abstract
Elevated levels of acute-phase serum amyloid A (A-SAA) cause amyloidosis and are a risk factor for atherosclerosis and its clinical complications, type 2 diabetes, as well as various malignancies. To investigate the genetic basis of A-SAA levels, we conducted the first genome-wide association study on baseline A-SAA concentrations in three population-based studies (KORA, TwinsUK, Sorbs) and one prospective case cohort study (LURIC), including a total of 4,212 participants of European descent, and identified two novel genetic susceptibility regions at 11p15.5-p13 and 1p31. The region at 11p15.5-p13 (rs4150642; p = 3.20×10−111) contains serum amyloid A1 (SAA1) and the adjacent general transcription factor 2 H1 (GTF2H1), Hermansky-Pudlak Syndrome 5 (HPS5), lactate dehydrogenase A (LDHA), and lactate dehydrogenase C (LDHC). This region explains 10.84% of the total variation of A-SAA levels in our data, which makes up 18.37% of the total estimated heritability. The second region encloses the leptin receptor (LEPR) gene at 1p31 (rs12753193; p = 1.22×10−11) and has been found to be associated with CRP and fibrinogen in previous studies. Our findings demonstrate a key role of the 11p15.5-p13 region in the regulation of baseline A-SAA levels and provide confirmative evidence of the importance of the 1p31 region for inflammatory processes and the close interplay between A-SAA, leptin, and other acute-phase proteins.Author Summary: An elevated level of acute-phase serum amyloid A (A-SAA), a sensitive marker of the acute inflammatory state with high heritability estimates, causes amyloidosis and is a risk factor for atherosclerosis and its clinical complications, type 2 diabetes, as well as various malignancies. This study describes the first genome-wide association study on baseline A-SAA concentrations. In a meta-analysis of four genome-wide scans totalling 4,212 participants of European descent, we identified two novel genetic susceptibility regions on chromosomes 11 and 1 to be associated with baseline A-SAA concentrations. The chromosome 11 region contains the serum amyloid A1 gene and the adjacent genes and explains a high percentage of the total estimated heritability. The chromosome 1 region is a known genetic susceptibility region for inflammation. Taken together, we identified one region, which seems to be of key importance in the regulation of A-SAA levels and represents a novel potential target for the investigation of related clinical entities. In addition, our findings indicate a close interplay between A-SAA and other inflammatory proteins, as well as a larger role of a known genetic susceptibility region for inflammatory processes as it has been assumed in the past.
Suggested Citation
Carola Marzi & Eva Albrecht & Pirro G Hysi & Vasiliki Lagou & Melanie Waldenberger & Anke Tönjes & Inga Prokopenko & Katharina Heim & Hannah Blackburn & Janina S Ried & Marcus E Kleber & Massimo Mangi, 2010.
"Genome-Wide Association Study Identifies Two Novel Regions at 11p15.5-p13 and 1p31 with Major Impact on Acute-Phase Serum Amyloid A,"
PLOS Genetics, Public Library of Science, vol. 6(11), pages 1-8, November.
Handle:
RePEc:plo:pgen00:1001213
DOI: 10.1371/journal.pgen.1001213
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