Sulfatide promotes the folding of proinsulin, preserves insulin crystals, and mediates its monomerization

T Osterbye; K H Jorgensen; P Fredman; J Tranum-Jensen; A Kaas; J Brange; J L Whittingham; K Buschard

Sulfatide promotes the folding of proinsulin, preserves insulin crystals, and mediates its monomerization

T Osterbye, K H Jorgensen, P Fredman, J Tranum-Jensen, A Kaas, J Brange, J L Whittingham, K Buschard

Chemistry

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

Abstract

Sulfatide is a glycolipid that has been associated with insulin-dependent diabetes mellitus, It is present in the islets of Langerhans and follows the same intracellular route as insulin. However, the role of sulfatide in the beta cell has been unclear. Here we present evidence suggesting that sulfatide promotes the folding of reduced proinsulin, indicating that sulfatide possesses molecular chaperone activity. Sulfatide associates with insulin by binding to the insulin domain AS-BIG and most likely by interacting with the hydrophobic side chains of the dimer-forming part of the insulin B-chain, Sulfatide has a dual effect on insulin. It substantially reduces deterioration of insulin hexamer crystals at pH 5.5, conferring stability comparable to those in beta cell granules. Sulfatide also mediates the conversion of insulin hexamers to the biological active monomers at neutral pH, the pH at the beta-cell surface. Finally, we report that inhibition of sulfatide synthesis with chloroquine and fumonisine B1 leads to inhibition of insulin granule formation in vivo. Our observations suggest that sulfatide plays a key role in the folding of proinsulin, in the maintenance of insulin structure, and in the monomerization process.

Original language	English
Pages (from-to)	473-479
Number of pages	7
Journal	GLYCOBIOLOGY
Volume	11
Issue number	6
Publication status	Published - Jun 2001

Keywords

sulfatide
insulin
molecular chaperone
islets of Langerhans
secretory granules
MOLECULAR CHAPERONES
DIABETES-MELLITUS
SECRETORY GRANULE
BETA-CELLS
PROTEIN
ANTIBODIES
LANGERHANS
ISLETS
MATURATION
TRANSPORT

Cite this

@article{624c76747cab4abaa796a07231e9c190,

title = "Sulfatide promotes the folding of proinsulin, preserves insulin crystals, and mediates its monomerization",

abstract = "Sulfatide is a glycolipid that has been associated with insulin-dependent diabetes mellitus, It is present in the islets of Langerhans and follows the same intracellular route as insulin. However, the role of sulfatide in the beta cell has been unclear. Here we present evidence suggesting that sulfatide promotes the folding of reduced proinsulin, indicating that sulfatide possesses molecular chaperone activity. Sulfatide associates with insulin by binding to the insulin domain AS-BIG and most likely by interacting with the hydrophobic side chains of the dimer-forming part of the insulin B-chain, Sulfatide has a dual effect on insulin. It substantially reduces deterioration of insulin hexamer crystals at pH 5.5, conferring stability comparable to those in beta cell granules. Sulfatide also mediates the conversion of insulin hexamers to the biological active monomers at neutral pH, the pH at the beta-cell surface. Finally, we report that inhibition of sulfatide synthesis with chloroquine and fumonisine B1 leads to inhibition of insulin granule formation in vivo. Our observations suggest that sulfatide plays a key role in the folding of proinsulin, in the maintenance of insulin structure, and in the monomerization process.",

keywords = "sulfatide, insulin, molecular chaperone, islets of Langerhans, secretory granules, MOLECULAR CHAPERONES, DIABETES-MELLITUS, SECRETORY GRANULE, BETA-CELLS, PROTEIN, ANTIBODIES, LANGERHANS, ISLETS, MATURATION, TRANSPORT",

author = "T Osterbye and Jorgensen, {K H} and P Fredman and J Tranum-Jensen and A Kaas and J Brange and Whittingham, {J L} and K Buschard",

year = "2001",

month = jun,

language = "English",

volume = "11",

pages = "473--479",

journal = "GLYCOBIOLOGY",

issn = "0959-6658",

publisher = "Oxford University Press",

number = "6",

}

TY - JOUR

T1 - Sulfatide promotes the folding of proinsulin, preserves insulin crystals, and mediates its monomerization

AU - Osterbye, T

AU - Jorgensen, K H

AU - Fredman, P

AU - Tranum-Jensen, J

AU - Kaas, A

AU - Brange, J

AU - Whittingham, J L

AU - Buschard, K

PY - 2001/6

Y1 - 2001/6

N2 - Sulfatide is a glycolipid that has been associated with insulin-dependent diabetes mellitus, It is present in the islets of Langerhans and follows the same intracellular route as insulin. However, the role of sulfatide in the beta cell has been unclear. Here we present evidence suggesting that sulfatide promotes the folding of reduced proinsulin, indicating that sulfatide possesses molecular chaperone activity. Sulfatide associates with insulin by binding to the insulin domain AS-BIG and most likely by interacting with the hydrophobic side chains of the dimer-forming part of the insulin B-chain, Sulfatide has a dual effect on insulin. It substantially reduces deterioration of insulin hexamer crystals at pH 5.5, conferring stability comparable to those in beta cell granules. Sulfatide also mediates the conversion of insulin hexamers to the biological active monomers at neutral pH, the pH at the beta-cell surface. Finally, we report that inhibition of sulfatide synthesis with chloroquine and fumonisine B1 leads to inhibition of insulin granule formation in vivo. Our observations suggest that sulfatide plays a key role in the folding of proinsulin, in the maintenance of insulin structure, and in the monomerization process.

AB - Sulfatide is a glycolipid that has been associated with insulin-dependent diabetes mellitus, It is present in the islets of Langerhans and follows the same intracellular route as insulin. However, the role of sulfatide in the beta cell has been unclear. Here we present evidence suggesting that sulfatide promotes the folding of reduced proinsulin, indicating that sulfatide possesses molecular chaperone activity. Sulfatide associates with insulin by binding to the insulin domain AS-BIG and most likely by interacting with the hydrophobic side chains of the dimer-forming part of the insulin B-chain, Sulfatide has a dual effect on insulin. It substantially reduces deterioration of insulin hexamer crystals at pH 5.5, conferring stability comparable to those in beta cell granules. Sulfatide also mediates the conversion of insulin hexamers to the biological active monomers at neutral pH, the pH at the beta-cell surface. Finally, we report that inhibition of sulfatide synthesis with chloroquine and fumonisine B1 leads to inhibition of insulin granule formation in vivo. Our observations suggest that sulfatide plays a key role in the folding of proinsulin, in the maintenance of insulin structure, and in the monomerization process.

KW - sulfatide

KW - insulin

KW - molecular chaperone

KW - islets of Langerhans

KW - secretory granules

KW - MOLECULAR CHAPERONES

KW - DIABETES-MELLITUS

KW - SECRETORY GRANULE

KW - BETA-CELLS

KW - PROTEIN

KW - ANTIBODIES

KW - LANGERHANS

KW - ISLETS

KW - MATURATION

KW - TRANSPORT

M3 - Article

SN - 0959-6658

VL - 11

SP - 473

EP - 479

JO - GLYCOBIOLOGY

JF - GLYCOBIOLOGY

IS - 6

ER -