TY - JOUR
T1 - An evolutionary genomic approach to identify genes involved in human birth timing
AU - Plunkett, Jevon
AU - Doniger, Scott
AU - Orabona, Guilherme
AU - Morgan, Thomas
AU - Haataja, Ritva
AU - Hallman, Mikko
AU - Puttonen, Hilkka
AU - Menon, Ramkumar
AU - Kuczynski, Edward
AU - Norwitz, Errol
AU - Snegovskikh, Victoria
AU - Palotie, Aarno
AU - Peltonen, Leena
AU - Fellman, Vineta
AU - deFranco, Emily A.
AU - Chaudhari, Bimal P.
AU - McGregor, Tracy L.
AU - McElroy, Jude J.
AU - Oetjens, Matthew T.
AU - Teramo, Kari
AU - Borecki, Ingrid
AU - Fay, Justin
AU - Muglia, Louis
PY - 2011/4
Y1 - 2011/4
N2 - Coordination of fetal maturation with birth timing is essential for mammalian reproduction. In humans, preterm birth is a disorder of profound global health significance. The signals initiating parturition in humans have remained elusive, due to divergence in physiological mechanisms between humans and model organisms typically studied. Because of relatively large human head size and narrow birth canal cross-sectional area compared to other primates, we hypothesized that genes involved in parturition would display accelerated evolution along the human and/or higher primate phylogenetic lineages to decrease the length of gestation and promote delivery of a smaller fetus that transits the birth canal more readily. Further, we tested whether current variation in such accelerated genes contributes to preterm birth risk. Evidence from allometric scaling of gestational age suggests human gestation has been shortened relative to other primates. Consistent with our hypothesis, many genes involved in reproduction show human acceleration in their coding or adjacent noncoding regions. We screened >8,400 SNPs in 150 human accelerated genes in 165 Finnish preterm and 163 control mothers for association with preterm birth. In this cohort, the most significant association was in FSHR, and 8 of the 10 most significant SNPs were in this gene. Further evidence for association of a linkage disequilibrium block of SNPs in FSHR, rs11686474, rs11680730, rs12473870, and rs1247381 was found in African Americans. By considering human acceleration, we identified a novel gene that may be associated with preterm birth, FSHR. We anticipate other human accelerated genes will similarly be associated with preterm birth risk and elucidate essential pathways for human parturition.
AB - Coordination of fetal maturation with birth timing is essential for mammalian reproduction. In humans, preterm birth is a disorder of profound global health significance. The signals initiating parturition in humans have remained elusive, due to divergence in physiological mechanisms between humans and model organisms typically studied. Because of relatively large human head size and narrow birth canal cross-sectional area compared to other primates, we hypothesized that genes involved in parturition would display accelerated evolution along the human and/or higher primate phylogenetic lineages to decrease the length of gestation and promote delivery of a smaller fetus that transits the birth canal more readily. Further, we tested whether current variation in such accelerated genes contributes to preterm birth risk. Evidence from allometric scaling of gestational age suggests human gestation has been shortened relative to other primates. Consistent with our hypothesis, many genes involved in reproduction show human acceleration in their coding or adjacent noncoding regions. We screened >8,400 SNPs in 150 human accelerated genes in 165 Finnish preterm and 163 control mothers for association with preterm birth. In this cohort, the most significant association was in FSHR, and 8 of the 10 most significant SNPs were in this gene. Further evidence for association of a linkage disequilibrium block of SNPs in FSHR, rs11686474, rs11680730, rs12473870, and rs1247381 was found in African Americans. By considering human acceleration, we identified a novel gene that may be associated with preterm birth, FSHR. We anticipate other human accelerated genes will similarly be associated with preterm birth risk and elucidate essential pathways for human parturition.
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U2 - 10.1371/journal.pgen.1001365
DO - 10.1371/journal.pgen.1001365
M3 - Article
C2 - 21533219
AN - SCOPUS:79955608065
SN - 1553-7390
VL - 7
JO - PLoS genetics
JF - PLoS genetics
IS - 4
M1 - e1001365
ER -