Genomic Correlates of Atherosclerosis in Ancient Humans

Albert Zink; L. Samuel Wann; Randall C. Thompson; Andreas Keller; Frank Maixner; Adel H. Allam; Caleb E. Finch; Bruno Frohlich; Hillard Kaplan; Guido P. Lombardi; M. Linda Sutherland; James D. Sutherland; Lucia Watson; Samantha L. Cox; Michael I. Miyamoto; Jagat Narula; Alexandre F.R. Stewart; Gregory S. Thomas; Johannes Krause

doi:10.1016/j.gheart.2014.03.2453

Genomic Correlates of Atherosclerosis in Ancient Humans

Albert Zink
, L. Samuel Wann
, Randall C. Thompson
, Andreas Keller
, Frank Maixner
, Adel H. Allam
, Caleb E. Finch
, Bruno Frohlich
, Hillard Kaplan
, Guido P. Lombardi
, M. Linda Sutherland
, James D. Sutherland
, Lucia Watson
, Samantha L. Cox
, Michael I. Miyamoto
, Jagat Narula
, Alexandre F.R. Stewart
, Gregory S. Thomas
, Johannes Krause

Research output: Contribution to journal › Review article › peer-review

23 Scopus citations

Abstract

Paleogenetics offers a unique opportunity to study human evolution, population dynamics, and disease evolution in situ. Although histologic and computed x-ray tomographic investigations of ancient mummies have clearly shown that atherosclerosis has been present in humans for more than 5,000 years, limited data are available on the presence of genetic predisposition for cardiovascular disease in ancient human populations. In a previous whole-genome study of the Tyrolean Iceman, a 5,300-year-old glacier mummy from the Alps, an increased risk for coronary heart disease was detected. The Iceman's genome revealed several single nucleotide polymorphisms that are linked with cardiovascular disease in genome-wide association studies. Future genetic studies of ancient humans from various geographic origins and time periods have the potential to provide more insights into the presence and possible changes of genetic risk factors in our ancestors. The study of ancient humans and a better understanding of the interaction between environmental and genetic influences on the development of heart diseases may lead to a more effective prevention and treatment of the most common cause of death in the modern world.

Original language	English
Pages (from-to)	203-209
Number of pages	7
Journal	Global Heart
Volume	9
Issue number	2
DOIs	https://doi.org/10.1016/j.gheart.2014.03.2453
State	Published - Jun 2014

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10.1016/j.gheart.2014.03.2453

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Zink, A., Wann, L. S., Thompson, R. C., Keller, A., Maixner, F., Allam, A. H., Finch, C. E., Frohlich, B., Kaplan, H., Lombardi, G. P., Sutherland, M. L., Sutherland, J. D., Watson, L., Cox, S. L., Miyamoto, M. I., Narula, J., Stewart, A. F. R., Thomas, G. S., & Krause, J. (2014). Genomic Correlates of Atherosclerosis in Ancient Humans. Global Heart, 9(2), 203-209. https://doi.org/10.1016/j.gheart.2014.03.2453

@article{c2713090073642f89f74055566d983a8,

title = "Genomic Correlates of Atherosclerosis in Ancient Humans",

abstract = "Paleogenetics offers a unique opportunity to study human evolution, population dynamics, and disease evolution in situ. Although histologic and computed x-ray tomographic investigations of ancient mummies have clearly shown that atherosclerosis has been present in humans for more than 5,000 years, limited data are available on the presence of genetic predisposition for cardiovascular disease in ancient human populations. In a previous whole-genome study of the Tyrolean Iceman, a 5,300-year-old glacier mummy from the Alps, an increased risk for coronary heart disease was detected. The Iceman's genome revealed several single nucleotide polymorphisms that are linked with cardiovascular disease in genome-wide association studies. Future genetic studies of ancient humans from various geographic origins and time periods have the potential to provide more insights into the presence and possible changes of genetic risk factors in our ancestors. The study of ancient humans and a better understanding of the interaction between environmental and genetic influences on the development of heart diseases may lead to a more effective prevention and treatment of the most common cause of death in the modern world.",

author = "Albert Zink and Wann, \{L. Samuel\} and Thompson, \{Randall C.\} and Andreas Keller and Frank Maixner and Allam, \{Adel H.\} and Finch, \{Caleb E.\} and Bruno Frohlich and Hillard Kaplan and Lombardi, \{Guido P.\} and Sutherland, \{M. Linda\} and Sutherland, \{James D.\} and Lucia Watson and Cox, \{Samantha L.\} and Miyamoto, \{Michael I.\} and Jagat Narula and Stewart, \{Alexandre F.R.\} and Thomas, \{Gregory S.\} and Johannes Krause",

note = "Funding Information: Financial support was provided by the Stiftung S{\"u}dtiroler Sparkasse. ",

year = "2014",

month = jun,

doi = "10.1016/j.gheart.2014.03.2453",

language = "English",

volume = "9",

pages = "203--209",

journal = "Global Heart",

issn = "2211-8160",

publisher = "Ubiquity Press",

number = "2",

}

Zink, A, Wann, LS, Thompson, RC, Keller, A, Maixner, F, Allam, AH, Finch, CE, Frohlich, B, Kaplan, H, Lombardi, GP, Sutherland, ML, Sutherland, JD, Watson, L, Cox, SL, Miyamoto, MI, Narula, J, Stewart, AFR, Thomas, GS & Krause, J 2014, 'Genomic Correlates of Atherosclerosis in Ancient Humans', Global Heart, vol. 9, no. 2, pp. 203-209. https://doi.org/10.1016/j.gheart.2014.03.2453

TY - JOUR

T1 - Genomic Correlates of Atherosclerosis in Ancient Humans

AU - Zink, Albert

AU - Wann, L. Samuel

AU - Thompson, Randall C.

AU - Keller, Andreas

AU - Maixner, Frank

AU - Allam, Adel H.

AU - Finch, Caleb E.

AU - Frohlich, Bruno

AU - Kaplan, Hillard

AU - Lombardi, Guido P.

AU - Sutherland, M. Linda

AU - Sutherland, James D.

AU - Watson, Lucia

AU - Cox, Samantha L.

AU - Miyamoto, Michael I.

AU - Narula, Jagat

AU - Stewart, Alexandre F.R.

AU - Thomas, Gregory S.

AU - Krause, Johannes

N1 - Funding Information: Financial support was provided by the Stiftung Südtiroler Sparkasse.

PY - 2014/6

Y1 - 2014/6

N2 - Paleogenetics offers a unique opportunity to study human evolution, population dynamics, and disease evolution in situ. Although histologic and computed x-ray tomographic investigations of ancient mummies have clearly shown that atherosclerosis has been present in humans for more than 5,000 years, limited data are available on the presence of genetic predisposition for cardiovascular disease in ancient human populations. In a previous whole-genome study of the Tyrolean Iceman, a 5,300-year-old glacier mummy from the Alps, an increased risk for coronary heart disease was detected. The Iceman's genome revealed several single nucleotide polymorphisms that are linked with cardiovascular disease in genome-wide association studies. Future genetic studies of ancient humans from various geographic origins and time periods have the potential to provide more insights into the presence and possible changes of genetic risk factors in our ancestors. The study of ancient humans and a better understanding of the interaction between environmental and genetic influences on the development of heart diseases may lead to a more effective prevention and treatment of the most common cause of death in the modern world.

AB - Paleogenetics offers a unique opportunity to study human evolution, population dynamics, and disease evolution in situ. Although histologic and computed x-ray tomographic investigations of ancient mummies have clearly shown that atherosclerosis has been present in humans for more than 5,000 years, limited data are available on the presence of genetic predisposition for cardiovascular disease in ancient human populations. In a previous whole-genome study of the Tyrolean Iceman, a 5,300-year-old glacier mummy from the Alps, an increased risk for coronary heart disease was detected. The Iceman's genome revealed several single nucleotide polymorphisms that are linked with cardiovascular disease in genome-wide association studies. Future genetic studies of ancient humans from various geographic origins and time periods have the potential to provide more insights into the presence and possible changes of genetic risk factors in our ancestors. The study of ancient humans and a better understanding of the interaction between environmental and genetic influences on the development of heart diseases may lead to a more effective prevention and treatment of the most common cause of death in the modern world.

UR - https://www.scopus.com/pages/publications/84905437075

U2 - 10.1016/j.gheart.2014.03.2453

DO - 10.1016/j.gheart.2014.03.2453

M3 - Review article

C2 - 25667090

AN - SCOPUS:84905437075

SN - 2211-8160

VL - 9

SP - 203

EP - 209

JO - Global Heart

JF - Global Heart

IS - 2

ER -

Genomic Correlates of Atherosclerosis in Ancient Humans

Abstract

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