Multiple growth hormone-binding proteins are expressed on insulin-producing cells

TY - JOUR

T1 - Multiple growth hormone-binding proteins are expressed on insulin-producing cells

AU - Møldrup, A

AU - Billestrup, N

AU - Thorn, N A

AU - Lernmark, A

AU - Nielsen, Jens Høiriis

PY - 1989/8

Y1 - 1989/8

N2 - The insulin-producing rat islet tumor cell line, RIN-5AH, expresses somatogen binding sites and responds to GH by increased proliferation and insulin production. Affinity cross-linking shows that RIN-5AH cells contain two major GH-binding subunits of Mr 100-130K (110K), which appear to exist as disulfide-linked multimers of Mr 270-350K (300K). In addition, a minor Mr 180K GH-binding protein is identified which does not appear to be associated with other proteins by disulfide bridges. A plasma membrane-enriched fraction accounts for 86% of the RIN-cell GH-binding activity while cytosol and intracellular organelles are low in GH-binding activity. The plasma membrane-bound activity is soluble in Triton X-100 with intact hormone binding characteristics. The apparent KD in detergent solution is estimated to 18 ng/ml (8 x 10(-10) M). 125I-hGH-affinity cross-linking to intact and detergent-solubilized membranes as well as hGH-affinity purified protein reveals labeled proteins of Mr 180K and Mr 285-350K. In contrast to the cross-linked Mr 300K complexes of intact cells those of disintegrated cellular material are resistant to reduction with dithiothreitol, and it is speculated that this is due to intersubunit cross-linking of the disulfide-linked Mr 110K GH-binding subunits. The GH-binding proteins are purified approximately 100-fold by one cycle of hGH-affinity chromatography and five major proteins of Mr 180K, 94K, 86K, 64K, and 54K are identified by silver staining in the purified fraction. It is concluded that the RIN-5AH cells have multiple GH-binding proteins which may mediate signals for either proliferation and/or insulin production.

AB - The insulin-producing rat islet tumor cell line, RIN-5AH, expresses somatogen binding sites and responds to GH by increased proliferation and insulin production. Affinity cross-linking shows that RIN-5AH cells contain two major GH-binding subunits of Mr 100-130K (110K), which appear to exist as disulfide-linked multimers of Mr 270-350K (300K). In addition, a minor Mr 180K GH-binding protein is identified which does not appear to be associated with other proteins by disulfide bridges. A plasma membrane-enriched fraction accounts for 86% of the RIN-cell GH-binding activity while cytosol and intracellular organelles are low in GH-binding activity. The plasma membrane-bound activity is soluble in Triton X-100 with intact hormone binding characteristics. The apparent KD in detergent solution is estimated to 18 ng/ml (8 x 10(-10) M). 125I-hGH-affinity cross-linking to intact and detergent-solubilized membranes as well as hGH-affinity purified protein reveals labeled proteins of Mr 180K and Mr 285-350K. In contrast to the cross-linked Mr 300K complexes of intact cells those of disintegrated cellular material are resistant to reduction with dithiothreitol, and it is speculated that this is due to intersubunit cross-linking of the disulfide-linked Mr 110K GH-binding subunits. The GH-binding proteins are purified approximately 100-fold by one cycle of hGH-affinity chromatography and five major proteins of Mr 180K, 94K, 86K, 64K, and 54K are identified by silver staining in the purified fraction. It is concluded that the RIN-5AH cells have multiple GH-binding proteins which may mediate signals for either proliferation and/or insulin production.

KW - Affinity Labels

KW - Animals

KW - Cell Fractionation

KW - Cell Line

KW - Cell Membrane

KW - Chromatography, Affinity

KW - Cross-Linking Reagents

KW - Islets of Langerhans

KW - Octoxynol

KW - Polyethylene Glycols

KW - Rats

KW - Receptors, Somatotropin

KW - Succinimides

M3 - Journal article

C2 - 2674691

SN - 0888-8809

VL - 3

SP - 1173

EP - 1182

JO - Molecular endocrinology (Baltimore, Md.)

JF - Molecular endocrinology (Baltimore, Md.)

IS - 8

ER -