Margareta Karlsson

Localization of the insulin receptor in caveolae of adipocyte plasma membrane

The insulin receptor is a transmembrane protein of the plasma membrane, where it recognizes extracellular insulin and transmits signals into the cellular signaling network. We report that insulin receptors are localized and signal in caveolae microdomains of adipocyte plasma membrane. Immunogold electron microscopy and immunofluorescence microscopy show that insulin receptors are restricted to caveolae and are colocalized with caveolin over the plasma membrane. Insulin receptor was enriched in a caveolae‐enriched fraction of plasma membrane. By extraction with β‐cyclodextrin or destruction with cholesterol oxidase, cholesterol reduction attenuated insulin receptor signaling to protein phosphorylation or glucose transport. Insulin signaling was regained by spontaneous recovery or by exogenous replenishment of cholesterol. β‐Cyclodextrin treatment caused a nearly complete annihilation of caveolae invaginations as examined by electron microscopy. This suggests that the receptor is dependent on the caveolae environment for signaling. Insulin stimulation of cells prior to isolation of caveolae or insulin stimulation of the isolated caveolae fraction increased tyrosine phosphorylation of the insulin receptor in caveolae, demonstrating that insulin receptors in caveolae are functional. Our results indicate that insulin receptors are localized to caveolae in the plasma membrane of adipocytes, are signaling in caveolae, and are dependent on caveolae for signaling.—Gustavsson, J., Parpal, S., Karlsson, M., Ramsing, C., Thorn, H., Borg, M., Lindroth, M., Peterson, K. H., Magnusson, K.‐E., Strålfors, P. Localization of the insulin receptor in caveolae of adipocyte plasma membrane. FASEB J. 13, 1961–1971 (1999)

Insulin induces translocation of glucose transporter GLUT4 to plasma membrane caveolae in adipocytes

Insulin‐stimulated glucose uptake in muscle and adipose tissue is the result of translocation of insulin‐regulated glucose transporters (GLUT4) from intracellular vesicles to the plasma membrane. Here we report that GLUT4 in the plasma membrane of 3T3‐L1 adipocytes were located predominantly in caveolae invaginations: by immunogold electron microscopy of plasma membranes, 88% of GLUT4 were localized to caveolae structures and this distribution within the plasma membrane was not affected by insulin. By immunofluorescence microscopy, a major part of GLUT 4 was colocalized with caveolin. The total amount of GLUT4 in the plasma membrane increased 2.2‐fold in response to insulin as determined by immunogold electron or immunofluorescence microscopy. GLUT4 were enriched in caveolae fractions isolated without detergents from plasma membranes of rat adipocytes. In these fractions, GLUT4 were largely confined to caveolin‐containing membranes of the caveolae preparation isolated from insulin‐stimulated cells, determined by electron microscopy. Insulin increased the amount of GLUT4 2.7‐fold in this caveolae fraction. Caveolae were purified further by immunoisolation with antibodies against caveolin. The amount of GLUT4 increased to the same extent in the immunopurified caveolae as in the cruder caveolae fractions from insulin‐stimulated cells. We conclude that insulin induces translocation of GLUT4 to caveolae.

Rapid insulin-dependent endocytosis of the insulin receptor by caveolae in primary adipocytes

Background The insulin receptor is localized in caveolae and is dependent on caveolae or cholesterol for signaling in adipocytes. When stimulated with insulin, the receptor is internalized. Methodology/Principal Findings We examined primary rat adipocytes by subcellular fractionation to examine if the insulin receptor was internalized in a caveolae-mediated process. Insulin induced a rapid, t1/2<3 min, endocytosis of the insulin receptor in parallel with receptor tyrosine autophosphorylation. Concomitantly, caveolin-1 was phosphorylated at tyrosine(14) and endocytosed. Vanadate increased the phosphorylation of caveolin-1 without affecting insulin receptor phosphorylation or endocytosis. Immunocapture of endosomal vesicles with antibodies against the insulin receptor co-captured caveolin-1 and immunocapture with antibodies against tyrosine(14)-phosphorylated caveolin-1 co-captured the insulin receptor, demonstrating that the insulin receptor was endocytosed together with tyrosine(14)-phosphorylated caveolin-1. By immunogold electron microscopy the insulin receptor and caveolin-1 were colocalized in endosome vesicles that resembled caveosomes. Clathrin was not endocytosed with the insulin receptor and the inhibitor of clathrin-coated pit-mediated endocytosis, chlorpromazine, did not inhibit internalization of the insulin receptor, while transferrin receptor internalization was inhibited. Conclusion It is concluded that in response to insulin stimulation the autophosphorylated insulin receptor in primary adipocytes is rapidly endocytosed in a caveolae-mediated process, involving tyrosine phosphorylation of caveolin-1.

Correlation of DNA ploidy and S‐phase fraction with chemotherapeutic response and survival in a randomized study of disseminated malignant melanoma

DNA ploidy and S‐phase fraction were measured by flow cytometry in the tumour tissue of 87 patients with disseminated malignant melanoma, who had been classified either as responders or with progressive disease in a study of the effects of 2 chemotherapeutic regimens. The patients had been randomized to receive treatment with dacarbazine (DTIC) and vindesine (Eldesine) with or without addition of cisplatin (Platinol). Tumour tissue was obtained from both the primary tumours and the last histologically verified metastases, but in some cases only the primary tumours or the last metastases could be evaluated. There was a significantly higher mean S‐phase value in melanoma metastases from patients with complete or partial responses compared with patients with progressive disease. Neither the S‐phase fraction of the primary tumour, nor the DNA ploidy of the primary tumour or of the last histologically verified metastases taken before inclusion into the study were associated with therapeutic response. In the multivariate analysis, both the anatomical location of the metastases and the S‐phase fraction measured on the last metastases remained significant prognostic factors of response. In the univariate survival analysis, there was an association between high S‐phase fractions of the metastases and longer survival. In the multivariate survival analysis, the S‐phase fraction, the number of involved metastatic sites and the treatment response were independent predictive factors. We conclude that, in disseminated melanoma treated with chemotherapy, a high S‐phase fraction measured in the last histologically verified metastases is associated with a higher response rate and a longer survival. Our results clearly support the role of S‐phase measurement as a potential tool for selecting patients for treatment.

Expression of a mutant IRS inhibits metabolic and mitogenic signalling of insulin in human adipocytes

Adipose tissue is a primary target of insulin, but knowledge about insulin signalling in human adipocytes is limited. We developed an electroporation technique for transfection of primary human adipocytes with a transfection efficiency of 15% +/- 5 (mean +/- S.D.). Human adipocytes were co-transfected with a mutant of IRS-3 (all four potential PI3-kinase binding motifs mutated: IRS-3F4) and HA-tagged protein kinase B (HA-PKB/Akt). HA-PKB/Akt was immunoprecipitated from cell lysates with anti-HA antibodies, resolved with SDS-PAGE, and immunoblotted with phospho-specific antibodies. We found that IRS-3F4 blocked insulin stimulation of HA-PKB/Akt phosphorylation and in further analyses also translocation of recombinant HA-tagged glucose transporter to the plasma membrane. IRS-3F4 also blocked insulin-induced activation of the transcription factor Elk-1. Our results demonstrate the critical importance of IRS for metabolic as well as mitogenic signalling by insulin. This method for transfection of primary human adipocytes will be useful for studying insulin signalling in human adipocytes with molecular biological techniques.

Microdialysis of 5-S-cysteinyldopa from interstitial fluid in cutaneous human melanoma transplanted to athymic mice

Microdialysis was investigated as a tool for the determination of the extracellular concentration of the pigment metabolite 5-S-cysteinyldopa in human melanoma transplanted to athymic mice. Histology of the tumour with the microdialysis probes in situ showed no tissue damage. With probes equipped with polycarbonate membranes (20 kD) extraction (relative recovery) was approximately 50% at pH 4.0 and flow rates of 1 μl/min, but at pH 7.0 recoveries were markedly lower, particularly from serum. In a first series of human melanomas transplanted to athymic mice low concentrations of 5-S-cysteinyldopa were detected in only two out of ten dialysates and were not detected in the other eight. Utilizing devices constructed for comparison of membrane characteristics in vitro we found about 4-fold higher recoveries with cuprophane and polyamide membranes than with polycarbonate membranes. Therefore newly constructed microdialysis probes (CMA/11) with cuprophane membranes were tested in vitro and gave recoveries of 38–48% from Ringer-Acetate solutions and 22–31% from serum, and the pH effects were low. When these probes were utilized in a second series of melanomas transplanted to athymic mice, 5-S-cysteinyldopa could easily be quantified in 10/10 experiments. A steady-state level of the dialysate 5-S-cysteinyldopa concentration was reached after 45 min.

DNA ploidy and S-phase fraction in primary melanomas and their regional metastases.

Flow cytometric analysis of DNA ploidy and S-phase fraction was performed on the primary melanomas and the first metastases from 55 melanoma patients with regional lymph node metastases or in transit metastases. The frequency of aneuploidy was significantly higher in metastases than in the primary tumour (p= 0.009), suggesting a higher growth potential in melanoma metastases than in the primary tumours. In 18 patients with reliable S-phase determinations from both primary tumour and metastasis there was no significant difference in mean S-phase fraction between primary melanomas and metastases. Skin metastases localized in dermis and subcutis had a significantly (p=0.012) higher mean S-phase fraction than lymph node metastases.

Evidence for two different classes of redox-active cysteines in ribonucleotide reductase of Escherichia coli

The large subunit of ribonucleotide reductase from Escherichia coli contains redox-active cysteine residues. In separate experiments, five conserved and 2 nonconserved cysteine residues were substituted with alanines by oligonucleotide-directed mutagenesis. The activities of the mutant proteins were determined in the presence of three different reductants: thioredoxin, glutaredoxin, or dithiothreitol. The results indicate two different classes of redox-active cysteines in ribonucleotide reductase: 1) C-terminal Cys-754 and Cys-759 responsible for the interaction with thioredoxin and glutaredoxin; and 2) Cys-225 and Cys-439 located at the nucleotide-binding site. Our classification of redox-active cysteines differs from the location of the active site cysteines in E. coli ribonucleotide reductase suggested previously (Lin, A.-N. I., Ashley, G. W., and Stubbe, J. (1987) Biochemistry 26, 6905-6909).