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Unravelling pathways downstream Sox6 induction in K562 erythroid cells by proteomic analysis

Authors :
Barbarani, G
Ronchi, A
Ruoppolo, M
Santorelli, L
Steinfelder, R
Elangovan, S
Fugazza, C
Caterino, M
Barbarani, Gloria
Ronchi, Antonella
Ruoppolo, Margherita
SANTORELLI, LUCIA
Steinfelder, Robert
Elangovan, Sudharshan
Fugazza, Cristina
Caterino, Marianna
Barbarani, G
Ronchi, A
Ruoppolo, M
Santorelli, L
Steinfelder, R
Elangovan, S
Fugazza, C
Caterino, M
Barbarani, Gloria
Ronchi, Antonella
Ruoppolo, Margherita
SANTORELLI, LUCIA
Steinfelder, Robert
Elangovan, Sudharshan
Fugazza, Cristina
Caterino, Marianna
Publication Year :
2017

Abstract

The Sox6 transcription factor is crucial for terminal maturation of definitive red blood cells. Sox6-null mouse fetuses present misshapen and nucleated erythrocytes, due to impaired actin assembly and cytoskeleton stability. These defects are accompanied with a reduced survival of Sox6-/- red blood cells, resulting in a compensated anemia. Sox6-overexpression in K562 cells and in human primary ex vivo erythroid cultures enhances erythroid differentiation and leads to hemoglobinization, the hallmark of erythroid maturation. To obtain an overview on processes downstream to Sox6 expression, we performed a differential proteomic analysis on human erythroid K562 cells overexpressing Sox6. Sox6-overexpression induces dysregulation of 64 proteins, involved in cytoskeleton remodeling and in protein synthesis, folding and trafficking, key processes for erythroid maturation. Moreover, 43 out of 64 genes encoding for differentially expressed proteins contain within their proximal regulatory regions sites that are bound by SOX6 according to ENCODE ChIP-seq datasets and are possible direct SOX6 targets. SAR1B, one of the most induced proteins upon Sox6 overexpression, shares a conserved regulatory module, composed by a double SOX6 binding site and a GATA1 consensus, with the adjacent SEC24 A gene. Since both genes encode for COPII components, this element could concur to the coordinated expression of these proteins during erythropoiesis

Details

Database :
OAIster
Notes :
ELETTRONICO, English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1308923566
Document Type :
Electronic Resource