Mammalian Wnt3a is released on lipoprotein particles

S. Neumann; D. Coudreuse; D.R. van der Westhuyzen; E.R.M. Eckhardt; H.C. Korswagen; G. Schmitz; H. Sprong

Mammalian Wnt3a is released on lipoprotein particles

S. Neumann, D. Coudreuse, D.R. van der Westhuyzen, E.R.M. Eckhardt, H.C. Korswagen, G. Schmitz, H. Sprong

Dept of Chemistry

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

Abstract

Little is known about the release and intercellular transport of Wnt proteins from mammalian cells. Lipoproteins may act as carriers for the intercellular movement and gradient formation of the lipid-linked morphogens Wingless and Hedgehog in Drosophila. To investigate whether such a mechanism can occur in mammals, we have studied Wnt release in cultured mammalian cells. Wnt3a associated with lipoproteins in the culture medium and not with extracellular vesicles or exosomes. Although Wnt3a was associated with both high-density lipoproteins (HDL) and low-density lipoproteins, only HDL allowed Wnt3a release from mouse fibroblasts. Remarkably, Wnt3a lacking its palmitate moiety was released in a lipoprotein-independent manner, demonstrating the dual role of palmitoylation in membrane and lipoprotein binding. We additionally found that Wnt3a can be released from enterocyte cell lines on endogenously expressed lipoproteins. We further discuss the physiological implications of our findings.

Original language	Undefined/Unknown
Journal	Traffic
Volume	in press
Publication status	Published - 2008

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title = "Mammalian Wnt3a is released on lipoprotein particles",

abstract = "Little is known about the release and intercellular transport of Wnt proteins from mammalian cells. Lipoproteins may act as carriers for the intercellular movement and gradient formation of the lipid-linked morphogens Wingless and Hedgehog in Drosophila. To investigate whether such a mechanism can occur in mammals, we have studied Wnt release in cultured mammalian cells. Wnt3a associated with lipoproteins in the culture medium and not with extracellular vesicles or exosomes. Although Wnt3a was associated with both high-density lipoproteins (HDL) and low-density lipoproteins, only HDL allowed Wnt3a release from mouse fibroblasts. Remarkably, Wnt3a lacking its palmitate moiety was released in a lipoprotein-independent manner, demonstrating the dual role of palmitoylation in membrane and lipoprotein binding. We additionally found that Wnt3a can be released from enterocyte cell lines on endogenously expressed lipoproteins. We further discuss the physiological implications of our findings.",

author = "S. Neumann and D. Coudreuse and {van der Westhuyzen}, D.R. and E.R.M. Eckhardt and H.C. Korswagen and G. Schmitz and H. Sprong",

year = "2008",

language = "Undefined/Unknown",

volume = "in press",

journal = "Traffic",

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publisher = "Blackwell Munksgaard",

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T1 - Mammalian Wnt3a is released on lipoprotein particles

AU - Neumann, S.

AU - Coudreuse, D.

AU - van der Westhuyzen, D.R.

AU - Eckhardt, E.R.M.

AU - Korswagen, H.C.

AU - Schmitz, G.

AU - Sprong, H.

PY - 2008

Y1 - 2008

N2 - Little is known about the release and intercellular transport of Wnt proteins from mammalian cells. Lipoproteins may act as carriers for the intercellular movement and gradient formation of the lipid-linked morphogens Wingless and Hedgehog in Drosophila. To investigate whether such a mechanism can occur in mammals, we have studied Wnt release in cultured mammalian cells. Wnt3a associated with lipoproteins in the culture medium and not with extracellular vesicles or exosomes. Although Wnt3a was associated with both high-density lipoproteins (HDL) and low-density lipoproteins, only HDL allowed Wnt3a release from mouse fibroblasts. Remarkably, Wnt3a lacking its palmitate moiety was released in a lipoprotein-independent manner, demonstrating the dual role of palmitoylation in membrane and lipoprotein binding. We additionally found that Wnt3a can be released from enterocyte cell lines on endogenously expressed lipoproteins. We further discuss the physiological implications of our findings.

AB - Little is known about the release and intercellular transport of Wnt proteins from mammalian cells. Lipoproteins may act as carriers for the intercellular movement and gradient formation of the lipid-linked morphogens Wingless and Hedgehog in Drosophila. To investigate whether such a mechanism can occur in mammals, we have studied Wnt release in cultured mammalian cells. Wnt3a associated with lipoproteins in the culture medium and not with extracellular vesicles or exosomes. Although Wnt3a was associated with both high-density lipoproteins (HDL) and low-density lipoproteins, only HDL allowed Wnt3a release from mouse fibroblasts. Remarkably, Wnt3a lacking its palmitate moiety was released in a lipoprotein-independent manner, demonstrating the dual role of palmitoylation in membrane and lipoprotein binding. We additionally found that Wnt3a can be released from enterocyte cell lines on endogenously expressed lipoproteins. We further discuss the physiological implications of our findings.

M3 - Article

SN - 1398-9219

VL - in press

JO - Traffic

JF - Traffic

ER -