scholarly journals Transport of IGF-I across epithelial cell monolayers

1999 ◽  
Vol 162 (3) ◽  
pp. 361-369 ◽  
Author(s):  
SE Bastian ◽  
PE Walton ◽  
FJ Ballard ◽  
DA Belford
Keyword(s):  
Epithelial Cell ◽  
Cell Lines ◽  
Igf Binding Proteins ◽  
Cell Monolayers ◽  
High Affinity ◽  
Igf Receptors ◽  
Igf I ◽  
Mdbk Cells ◽  
Igf Binding ◽  
Epithelial Cell Monolayers

Epithelial cells line the lumens of organs including the gastrointestinal tract, kidney tubules and respiratory airways, where they regulate the transport of electrolytes and the movement of macromolecules. The current study aimed to investigate the transport of IGF-I across epithelial cell barriers. Epithelial cell lines derived from gut (IEC-6), kidney (MDBK) and lung (Mv1Lu) were shown to possess high-affinity, functional receptors for IGF-I and formed tight junctions in monolayer culture. To investigate the transport of IGF-I, the three cell lines were grown on microporous filters in a bi-chamber system. In comparison with filters without cells, IEC-6 and Mv1Lu epithelial cell monolayers restricted the passage of (125)I-IGF-I and [(3)H]inulin, whereas the MDBK cells virtually occluded any passage of these molecules. Transport of (125)I-IGF-I across the epithelial cell monolayers was significantly less than that of [(3)H]inulin, suggesting that the binding of (125)I-IGF-I to high-affinity IGF receptors or IGF-binding proteins retarded its transport. Moreover, (125)I-IGF-I transport was not inhibited by the presence of excess unlabelled IGF-I. Our findings provide evidence for the restricted diffusion of intact, free IGF-I across gut, kidney and lung epithelial cell monolayers via a paracellular or low-affinity transcellular pathway.

IGF-II, IGF-binding proteins and IGF receptors in pancreatic β-cell lines

1997 ◽  
Vol 152 (3) ◽  
pp. 455-464 ◽  
Author(s):  
L E L Katz ◽  
A Bhala ◽  
E Camron ◽  
S E Nunn ◽  
R L Hintz ◽  
...  
Keyword(s):  
Cell Lines ◽  
Binding Proteins ◽  
Conditioned Media ◽  
Pancreatic Β Cell ◽  
Β Cell ◽  
Igf Binding Proteins ◽  
Igf Receptors ◽  
Igf I ◽  
Igf Binding ◽  
Hit Cells

The IGFs are mitogenic agents which are closely linked to regulatory processes in carbohydrate metabolism. Because limited information is available on the occurrence of the IGF system in the pancreatic β-cell milieu, we evaluated the presence of IGFs, IGF receptors, and IGF-binding proteins (IGFBPs) in the β-cell lines βTC3 and HIT T-15. Serum-free conditioned media (SFCM) from βTC3 cells contained IGF-II at concentrations greater than 100 ng/ml. High (15 kDa) and low (7·5 kDa) molecular weight IGF-II were detected both by column chromatography followed by RIA and by immunoblotting. GH (10–1000 ng/ml) conditioning of βTC3 cells stimulated IGF-II secretion in a dose-dependent manner. IGF-II mRNA was detected in βTC3 cells using Northern blots, and also showed a GH-dependent relationship. IGF-II peptide was detected in SFCM from HIT cells, albeit at lower concentrations. To evaluate the presence of IGF receptors in β-cell lines, affinity cross-linking studies were performed on βTC3 cells, demonstrating type I IGF receptors which bound iodinated IGF-II with high affinity, iodinated IGF-I with lesser affinity, and had minimal appreciable binding to iodinated insulin. Type II IGF receptors were not detected. SFCM from βTC3 and HIT cells was subjected to Western ligand blotting, which disclosed the presence of two major IGFBPs of 29 kDa and 24 kDa, characteristic of IGFBP-2 and IGFBP-4. The identity of the specific IGFBPs was confirmed by immunoprecipitation and Northern blotting. Varying the glucose concentration had no significant effect on the levels of IGFBPs, nor did preconditioning with GH, IGF-I, IGF-II, insulin, or glucagon. Levels of both IGFBPs in βTC3 cell-conditioned media increased in the presence of dexamethasone at concentrations of 10−6 m or greater. In summary, we present evidence that β-cell lines comprise an environment for GH and IGF action. We speculate that IGFs, their receptors and binding proteins function as a complex interactive system which regulates β-cell growth and function. Journal of Endocrinology (1997) 152, 455–464

scholarly journals Identification and characterization of insulin-like growth factor (IGF)-binding protein expression and secretion by adult human adrenocortical cells: differential regulation by IGFs and adrenocorticotropin

2001 ◽  
Vol 168 (3) ◽  
pp. 465-474 ◽  
Author(s):  
C Fottner ◽  
D Engelhardt ◽  
MW Elmlinger ◽  
MM Weber
Keyword(s):  
Primary Culture ◽  
Conditioned Medium ◽  
Adrenocortical Function ◽  
Adrenocortical Cells ◽  
Igf Binding Proteins ◽  
High Affinity ◽  
Adult Human ◽  
Igf I ◽  
Igf Binding ◽  
Igfbp 3

In previous studies we have shown that IGF-II stimulates basal as well as ACTH-induced cortisol secretion from adult human adrenocortical cells more potently than IGF-I, and that both IGFs predominantly stimulate androgen biosynthesis. The steroidogenic effect of IGF-I and IGF-II is mediated through interaction with the IGF-I receptor, and modified by locally produced IGF-binding proteins (IGFBPs). In the present study, we identified and characterized IGFBP synthesis in normal adult human adrenocortical cells in primary culture, and investigated the effect of ACTH and recombinant human IGF-I and -II on the regulation of IGFBP expression and secretion. Using RT-PCR, we identified the mRNA of all six high-affinity IGFBPs, in both adrenocortical tissue and monolayer cell cultures of adrenocortical cells. Using Western ligand and immunoblotting and two-dimensional Western ligand blotting we confirmed the secretion of IGFBP-1, -2, -3, -4 and -5 by adrenocortical cells in primary culture. The quantification of IGFBPs indicated that IGFBP-3 accounts for almost half the binding activity in conditioned medium of unstimulated cells (47%), followed by IGFBP-4 (20%), IGFBP-5 (15%), IGFBP-2 (12%) and IGFBP-1 (6%). After treatment with ACTH, the abundance of IGFBP-1 was upregulated significantly 2.6-fold, while IGFBP-3 was induced only slightly (1.3-fold). IGFBP-2, -4 and -5 remained unchanged. In contrast, IGF-I and -II (6.5 nM) predominantly induced the abundance of IGFBP-5 (2- and 1.6-fold respectively) and IGFBP-3 (2- and 1.7-fold respectively), while IGFBP-1, -2 and -4 were unaltered. The induction of IGFBP-1 and -5 by ACTH and IGFs, respectively, was paralleled by an increase in the amount of IGFBP-1 and -5 mRNA in these cells. In conclusion, all six high-affinity IGFBPs are expressed in the adult human adrenal gland, and the presence of at least five high-affinity IGFBPs has been demonstrated in conditioned medium of adult human adrenocortical cells. Furthermore, the expression and secretion of IGFBP-1 is upregulated by ACTH, whereas IGFBP-5 is induced by IGF-I and -II. Together with earlier findings, these results suggest that IGFBPs play an important modulatory role in the regulation of the differentiated adrenocortical function.

scholarly journals Contributions of the N- and C-terminal domains of IGF binding protein-6 to IGF binding

2004 ◽  
Vol 33 (2) ◽  
pp. 377-386 ◽  
Author(s):  
Stephen J Headey ◽  
Kerri S Leeding ◽  
Raymond S Norton ◽  
Leon A Bach
Keyword(s):  
Binding Affinity ◽  
Full Length ◽  
Binding Studies ◽  
Dissociation Kinetics ◽  
Igf Binding Proteins ◽  
Inhibition Of Proliferation ◽  
High Affinity ◽  
Binding Preference ◽  
Igf I ◽  
Igf Binding

Insulin-like growth factors IGF-I and IGF -II are important mediators of growth. A family of six high affinity IGF binding proteins (IGFBPs) modulate IGF action. IGFBPs have three domains, of which the N- and C-domains are involved in high affinity IGF binding. IGFBP-6 is unique in its 20–100-fold IGF-II binding specificity over IGF-I. The aim of this study was to determine the contributions of the N- and C-domains of IGFBP-6 to its IGF binding properties. We confirmed that differential dissociation kinetics are responsible for the IGF-II binding preference of IGFBP-6. The N-domain has rapid association kinetics, similar to full-length IGFBP-6, but both IGF-I and -II dissociate rapidly from this domain, thereby reducing its binding affinity for IGF-II ~50-fold. However, the N-domain binds IGF-I and -II with similar affinities and it has a similar IGF-I binding affinity to full-length IGFBP-6. This suggests that the C-domain confers the IGF-II binding preference of IGFBP-6; indeed, IGF-I bound inconsistently with very low affinity to the C-domain. Coincubation studies showed that isolated N- and C-domains of IGFBP-6 do not strongly cooperate to enhance IGF binding. The results of the binding studies are supported by the effects of the IGFBP-6 domains on IGF-induced colon cancer cell proliferation; the N-domain inhibited IGF-II induced proliferation with ~20-fold lower potency than IGFBP-6 and it was equipotent in inhibiting IGF-I- and IGF-II-induced proliferation. Coincubation of C-domain had no additional effect on N-domain-induced inhibition of proliferation. In conclusion, both the N- and C-domains of IGFBP-6 are involved in IGF binding, the C-domain is responsible for the IGF-II binding preference of IGFBP-6 and intact IGFBP-6 is necessary for high affinity IGF binding.

Expression of IGF-II and IGF-binding proteins by colon cancer cells in relation to growth response to IGFs

1994 ◽  
Vol 267 (4) ◽  
pp. G608-G617 ◽  
Author(s):  
P. Singh ◽  
B. Dai ◽  
C. Yallampalli ◽  
Z. Xu
Keyword(s):  
Colon Cancer ◽  
Cell Lines ◽  
Growth Response ◽  
Binding Proteins ◽  
Human Colon ◽  
Igf Binding Proteins ◽  
Colon Cancers ◽  
Igf I ◽  
Igf Binding ◽  
Responsive Cell

We previously reported that even though virtually all human colon cancers were positive for IGF-I receptors, only 50% responded to growth effects of insulin-like growth factor (IGF)-I (1-100 nM). The present studies were undertaken to determine whether expression and secretion of IGFs (IGF-I, IGF-II) and IGF-binding proteins (BPs; 1-6) were perhaps different in IGF-responsive (COLO 205, COLO 320, Caco-2) and IGF-nonresponsive (HCT 116, HT-29, DLD-1) cells. Several bands (2.0-6.0 kb) of IGF-II mRNA transcripts were detected in all the cell lines; none expressed IGF-I. Significant concentrations of IGF-II (0.2-0.9 ng/10(6) cells) were measured in the conditioned media (CM) of the cells. All cell lines expressed BP2 and/or BP4 mRNA and secreted BP4 (24 kDa) and/or BP2 (32.5 kDa); BP1 was not detected in any cell line. Interestingly, BP3 mRNA was measured only in the responsive cell lines. The relative concentration of total BPs tended to be higher in the CM of nonresponsive cells. Interestingly, a large concentration of 44- to 48-kDa BP (BP3?) was associated with the membranes of only the responsive cell lines. Our present studies thus demonstrate that human colon cancers do not secrete IGF-I and BP1. Of all the IGF-related factors examined, the quantity and the type of BPs expressed by the human colon cancer cell lines (especially BP2, BP4, and BP3) may significantly dictate the growth response of the cells to exogenous IGF-I.

Growth, differentiation, and survival: multiple physiological functions for insulin-like growth factors

1996 ◽  
Vol 76 (4) ◽  
pp. 1005-1026 ◽  
Author(s):  
C. E. Stewart ◽  
P. Rotwein
Keyword(s):  
Growth Factors ◽  
Molecular Genetic ◽  
Igf Binding Proteins ◽  
Surface Receptors ◽  
Igf System ◽  
New Information ◽  
Igf Receptors ◽  
Igf I ◽  
Igf Binding ◽  
Insulin Like Growth Factors

The insulin-like growth factors (IGFs), IGF-I and IGF-II, comprise a conserved pair of secreted proteins with diverse effects on growth, development, and metabolism. Insulin-like growth factor action is initiated upon binding to cell-surface receptors and is modulated through interactions with secreted IGF binding proteins (IGFBPs). The last decade has seen an explosion of new information about the physiological roles of the IGFs. In this review, we critically examine this information from biochemical, cell biological, and molecular genetic perspectives. We discuss the structures and functions of the two IGF receptors, outline the actions of the six IGFBPs, and summarize and interpret recent studies highlighting essential roles for components of the IGF system in the growth and development of the embryo and fetus, in tissue differentiation, in cell survival and proliferation, and in cancer. These results are discussed in the context of new opportunities for understanding the mechanisms of IGF action in multiple biological processes.

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