Replication of 15 loci involved in human plasma protein N-glycosylation in 4802 samples from four cohorts

S.Z. Sharapov; A.S. Shadrina; Y.A. Tsepilov; E.E. Elgaeva; E.S. Tiys; S.G. Feoktistova; O.O. Zaytseva; F. Vuckovic; R. Cuadrat; S. Jager; C. Wittenbecher; L.C. Karssen; M. Timofeeva; T. Tillin; I. Trbojevic-Akmacic; T. Stambuk; N. Rudman; J. Kristic; J. Simunovic; A. Momcilovic; M. Vilaj; J. Juric; A. Slana; I. Gudelj; T. Klaric; L. Puljak; A. Skelin; A.J. Kadic; J. Van Zundert; N. Chaturvedi; H. Campbell; M. Dunlop; S.M. Farrington; M. Doherty; C. Dagostino; C. Gieger; M. Allegri; F. Williams; M.B. Schulze; G. Lauc; Y.S. Aulchenko

doi:10.1093/glycob/cwaa053

Replication of 15 loci involved in human plasma protein N-glycosylation in 4802 samples from four cohorts

S.Z. Sharapov, A.S. Shadrina, Y.A. Tsepilov, E.E. Elgaeva, E.S. Tiys, S.G. Feoktistova, O.O. Zaytseva, F. Vuckovic, R. Cuadrat, S. Jager, C. Wittenbecher, L.C. Karssen, M. Timofeeva, T. Tillin, I. Trbojevic-Akmacic, T. Stambuk, N. Rudman, J. Kristic, J. Simunovic, A. MomcilovicM. Vilaj, J. Juric, A. Slana, I. Gudelj, T. Klaric, L. Puljak, A. Skelin, A.J. Kadic, J. Van Zundert, N. Chaturvedi, H. Campbell, M. Dunlop, S.M. Farrington, M. Doherty, C. Dagostino, C. Gieger, M. Allegri, F. Williams, M.B. Schulze, G. Lauc, Y.S. Aulchenko^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Human protein glycosylation is a complex process, and its in vivo regulation is poorly understood. Changes in glycosylation patterns are associated with many human diseases and conditions. Understanding the biological determinants of protein glycome provides a basis for future diagnostic and therapeutic applications. Genome-wide association studies (GWAS) allow to study biology via a hypothesis-free search of loci and genetic variants associated with a trait of interest. Sixteen loci were identified by three previous GWAS of human plasma proteome N-glycosylation. However, the possibility that some of these loci are false positives needs to be eliminated by replication studies, which have been limited so far. Here, we use the largest set of samples so far (4802 individuals) to replicate the previously identified loci. For all but one locus, the expected replication power exceeded 95%. Of the 16 loci reported previously, 15 were replicated in our study. For the remaining locus (near the KREMEN1 gene), the replication power was low, and hence, replication results were inconclusive. The very high replication rate highlights the general robustness of the GWAS findings as well as the high standards adopted by the community that studies genetic regulation of protein glycosylation. The 15 replicated loci present a good target for further functional studies. Among these, eight loci contain genes encoding glycosyltransferases: MGAT5, B3GAT1, FUT8, FUT6, ST6GAL1, B4GALT1, ST3GAL4 and MGAT3. The remaining seven loci offer starting points for further functional follow-up investigation into molecules and mechanisms that regulate human protein N-glycosylation in vivo.

Original language	English
Pages (from-to)	82-88
Number of pages	7
Journal	Glycobiology
Volume	31
Issue number	2
DOIs	https://doi.org/10.1093/glycob/cwaa053
Publication status	Published - 1 Feb 2021

Keywords

genetic association study
glycosylation
locus
total plasma N-glycome
replication
IMMUNOGLOBULIN-G
GOLGI PH

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10.1093/glycob/cwaa053

Cite this

Sharapov, S. Z., Shadrina, A. S., Tsepilov, Y. A., Elgaeva, E. E., Tiys, E. S., Feoktistova, S. G., Zaytseva, O. O., Vuckovic, F., Cuadrat, R., Jager, S., Wittenbecher, C., Karssen, L. C., Timofeeva, M., Tillin, T., Trbojevic-Akmacic, I., Stambuk, T., Rudman, N., Kristic, J., Simunovic, J., ... Aulchenko, Y. S. (2021). Replication of 15 loci involved in human plasma protein N-glycosylation in 4802 samples from four cohorts. Glycobiology, 31(2), 82-88. https://doi.org/10.1093/glycob/cwaa053

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title = "Replication of 15 loci involved in human plasma protein N-glycosylation in 4802 samples from four cohorts",

abstract = "Human protein glycosylation is a complex process, and its in vivo regulation is poorly understood. Changes in glycosylation patterns are associated with many human diseases and conditions. Understanding the biological determinants of protein glycome provides a basis for future diagnostic and therapeutic applications. Genome-wide association studies (GWAS) allow to study biology via a hypothesis-free search of loci and genetic variants associated with a trait of interest. Sixteen loci were identified by three previous GWAS of human plasma proteome N-glycosylation. However, the possibility that some of these loci are false positives needs to be eliminated by replication studies, which have been limited so far. Here, we use the largest set of samples so far (4802 individuals) to replicate the previously identified loci. For all but one locus, the expected replication power exceeded 95%. Of the 16 loci reported previously, 15 were replicated in our study. For the remaining locus (near the KREMEN1 gene), the replication power was low, and hence, replication results were inconclusive. The very high replication rate highlights the general robustness of the GWAS findings as well as the high standards adopted by the community that studies genetic regulation of protein glycosylation. The 15 replicated loci present a good target for further functional studies. Among these, eight loci contain genes encoding glycosyltransferases: MGAT5, B3GAT1, FUT8, FUT6, ST6GAL1, B4GALT1, ST3GAL4 and MGAT3. The remaining seven loci offer starting points for further functional follow-up investigation into molecules and mechanisms that regulate human protein N-glycosylation in vivo.",

keywords = "genetic association study, glycosylation, locus, total plasma N-glycome, replication, IMMUNOGLOBULIN-G, GOLGI PH",

author = "S.Z. Sharapov and A.S. Shadrina and Y.A. Tsepilov and E.E. Elgaeva and E.S. Tiys and S.G. Feoktistova and O.O. Zaytseva and F. Vuckovic and R. Cuadrat and S. Jager and C. Wittenbecher and L.C. Karssen and M. Timofeeva and T. Tillin and I. Trbojevic-Akmacic and T. Stambuk and N. Rudman and J. Kristic and J. Simunovic and A. Momcilovic and M. Vilaj and J. Juric and A. Slana and I. Gudelj and T. Klaric and L. Puljak and A. Skelin and A.J. Kadic and {Van Zundert}, J. and N. Chaturvedi and H. Campbell and M. Dunlop and S.M. Farrington and M. Doherty and C. Dagostino and C. Gieger and M. Allegri and F. Williams and M.B. Schulze and G. Lauc and Y.S. Aulchenko",

year = "2021",

month = feb,

day = "1",

doi = "10.1093/glycob/cwaa053",

language = "English",

volume = "31",

pages = "82--88",

journal = "Glycobiology",

issn = "0959-6658",

publisher = "Oxford University Press",

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Sharapov, SZ, Shadrina, AS, Tsepilov, YA, Elgaeva, EE, Tiys, ES, Feoktistova, SG, Zaytseva, OO, Vuckovic, F, Cuadrat, R, Jager, S, Wittenbecher, C, Karssen, LC, Timofeeva, M, Tillin, T, Trbojevic-Akmacic, I, Stambuk, T, Rudman, N, Kristic, J, Simunovic, J, Momcilovic, A, Vilaj, M, Juric, J, Slana, A, Gudelj, I, Klaric, T, Puljak, L, Skelin, A, Kadic, AJ, Van Zundert, J, Chaturvedi, N, Campbell, H, Dunlop, M, Farrington, SM, Doherty, M, Dagostino, C, Gieger, C, Allegri, M, Williams, F, Schulze, MB, Lauc, G & Aulchenko, YS 2021, 'Replication of 15 loci involved in human plasma protein N-glycosylation in 4802 samples from four cohorts', Glycobiology, vol. 31, no. 2, pp. 82-88. https://doi.org/10.1093/glycob/cwaa053

TY - JOUR

T1 - Replication of 15 loci involved in human plasma protein N-glycosylation in 4802 samples from four cohorts

AU - Sharapov, S.Z.

AU - Shadrina, A.S.

AU - Tsepilov, Y.A.

AU - Elgaeva, E.E.

AU - Tiys, E.S.

AU - Feoktistova, S.G.

AU - Zaytseva, O.O.

AU - Vuckovic, F.

AU - Cuadrat, R.

AU - Jager, S.

AU - Wittenbecher, C.

AU - Karssen, L.C.

AU - Timofeeva, M.

AU - Tillin, T.

AU - Trbojevic-Akmacic, I.

AU - Stambuk, T.

AU - Rudman, N.

AU - Kristic, J.

AU - Simunovic, J.

AU - Momcilovic, A.

AU - Vilaj, M.

AU - Juric, J.

AU - Slana, A.

AU - Gudelj, I.

AU - Klaric, T.

AU - Puljak, L.

AU - Skelin, A.

AU - Kadic, A.J.

AU - Van Zundert, J.

AU - Chaturvedi, N.

AU - Campbell, H.

AU - Dunlop, M.

AU - Farrington, S.M.

AU - Doherty, M.

AU - Dagostino, C.

AU - Gieger, C.

AU - Allegri, M.

AU - Williams, F.

AU - Schulze, M.B.

AU - Lauc, G.

AU - Aulchenko, Y.S.

PY - 2021/2/1

Y1 - 2021/2/1

N2 - Human protein glycosylation is a complex process, and its in vivo regulation is poorly understood. Changes in glycosylation patterns are associated with many human diseases and conditions. Understanding the biological determinants of protein glycome provides a basis for future diagnostic and therapeutic applications. Genome-wide association studies (GWAS) allow to study biology via a hypothesis-free search of loci and genetic variants associated with a trait of interest. Sixteen loci were identified by three previous GWAS of human plasma proteome N-glycosylation. However, the possibility that some of these loci are false positives needs to be eliminated by replication studies, which have been limited so far. Here, we use the largest set of samples so far (4802 individuals) to replicate the previously identified loci. For all but one locus, the expected replication power exceeded 95%. Of the 16 loci reported previously, 15 were replicated in our study. For the remaining locus (near the KREMEN1 gene), the replication power was low, and hence, replication results were inconclusive. The very high replication rate highlights the general robustness of the GWAS findings as well as the high standards adopted by the community that studies genetic regulation of protein glycosylation. The 15 replicated loci present a good target for further functional studies. Among these, eight loci contain genes encoding glycosyltransferases: MGAT5, B3GAT1, FUT8, FUT6, ST6GAL1, B4GALT1, ST3GAL4 and MGAT3. The remaining seven loci offer starting points for further functional follow-up investigation into molecules and mechanisms that regulate human protein N-glycosylation in vivo.

AB - Human protein glycosylation is a complex process, and its in vivo regulation is poorly understood. Changes in glycosylation patterns are associated with many human diseases and conditions. Understanding the biological determinants of protein glycome provides a basis for future diagnostic and therapeutic applications. Genome-wide association studies (GWAS) allow to study biology via a hypothesis-free search of loci and genetic variants associated with a trait of interest. Sixteen loci were identified by three previous GWAS of human plasma proteome N-glycosylation. However, the possibility that some of these loci are false positives needs to be eliminated by replication studies, which have been limited so far. Here, we use the largest set of samples so far (4802 individuals) to replicate the previously identified loci. For all but one locus, the expected replication power exceeded 95%. Of the 16 loci reported previously, 15 were replicated in our study. For the remaining locus (near the KREMEN1 gene), the replication power was low, and hence, replication results were inconclusive. The very high replication rate highlights the general robustness of the GWAS findings as well as the high standards adopted by the community that studies genetic regulation of protein glycosylation. The 15 replicated loci present a good target for further functional studies. Among these, eight loci contain genes encoding glycosyltransferases: MGAT5, B3GAT1, FUT8, FUT6, ST6GAL1, B4GALT1, ST3GAL4 and MGAT3. The remaining seven loci offer starting points for further functional follow-up investigation into molecules and mechanisms that regulate human protein N-glycosylation in vivo.

KW - genetic association study

KW - glycosylation

KW - locus

KW - total plasma N-glycome

KW - replication

KW - IMMUNOGLOBULIN-G

KW - GOLGI PH

U2 - 10.1093/glycob/cwaa053

DO - 10.1093/glycob/cwaa053

M3 - Article

C2 - 32521004

SN - 0959-6658

VL - 31

SP - 82

EP - 88

JO - Glycobiology

JF - Glycobiology

IS - 2

ER -