TY - JOUR
T1 - Conversion of Sox17 into a pluripotency reprogramming factor by reengineering its association with Oct4 on DNA
AU - Jauch, Ralf
AU - Aksoy, Irene
AU - Hutchins, Andrew Paul
AU - Ng, Calista Keow Leng
AU - Tian, Xian Feng
AU - Chen, Jiaxuan
AU - Palasingam, Paaventhan
AU - Robson, Paul
AU - Stanton, Lawrence W.
AU - Kolatkar, Prasanna R.
PY - 2011/6
Y1 - 2011/6
N2 - Very few proteins are capable to induce pluripotent stem (iPS) cells and their biochemical uniqueness remains unexplained. For example, Sox2 cooperates with other transcription factors to generate iPS cells, but Sox17, despite binding to similar DNA sequences, cannot. Here, we show that Sox2 and Sox17 exhibit inverse heterodimerization preferences with Oct4 on the canonical versus a newly identified compressed sox/oct motif. We can swap the cooperativity profiles of Sox2 and Sox17 by exchanging single amino acids at the Oct4 interaction interface resulting in Sox2KE and Sox17EK proteins. The reengineered Sox17EK now promotes reprogramming of somatic cells to iPS, whereas Sox2KE has lost this potential. Consistently, when Sox2KE is overexpressed in embryonic stem cells it forces endoderm differentiation similar to wild-type Sox17. Together, we demonstrate that strategic point mutations that facilitate Sox/Oct4 dimer formation on variant DNA motifs lead to a dramatic swap of the bioactivities of Sox2 and Sox17.
AB - Very few proteins are capable to induce pluripotent stem (iPS) cells and their biochemical uniqueness remains unexplained. For example, Sox2 cooperates with other transcription factors to generate iPS cells, but Sox17, despite binding to similar DNA sequences, cannot. Here, we show that Sox2 and Sox17 exhibit inverse heterodimerization preferences with Oct4 on the canonical versus a newly identified compressed sox/oct motif. We can swap the cooperativity profiles of Sox2 and Sox17 by exchanging single amino acids at the Oct4 interaction interface resulting in Sox2KE and Sox17EK proteins. The reengineered Sox17EK now promotes reprogramming of somatic cells to iPS, whereas Sox2KE has lost this potential. Consistently, when Sox2KE is overexpressed in embryonic stem cells it forces endoderm differentiation similar to wild-type Sox17. Together, we demonstrate that strategic point mutations that facilitate Sox/Oct4 dimer formation on variant DNA motifs lead to a dramatic swap of the bioactivities of Sox2 and Sox17.
KW - Endoderm differentiation
KW - Induced pluripotent stem cells
KW - Pluripotency
KW - Reprogramming
KW - Sox transcription factors
UR - http://www.scopus.com/inward/record.url?scp=79957592228&partnerID=8YFLogxK
U2 - 10.1002/stem.639
DO - 10.1002/stem.639
M3 - Article
C2 - 21472822
AN - SCOPUS:79957592228
SN - 1066-5099
VL - 29
SP - 940
EP - 951
JO - Stem Cells
JF - Stem Cells
IS - 6
ER -