Thyroid cells isolated from the gland by trypsinization are capable in culture of reconstituting histiotypic structures, the thyroid follicles. This morphological differentiation requires the presence of the main thyroid regulator; thyrotropin. We have analyzed some structural and functional aspects of in vitro reconstituted thyroid follicles (RTF) using microinjection of fluorescent probes and videomicroscopy. This experimental approach allowed to visualize biological processes and actions of drugs, signalling factors, etc. in living cells. We describe here some examples of what can be studied with this powerful still-undervalued method. Microinjection of a cell-impermeant fluorescent probe of either high or low molecular mass into the lumen of RTF allowed to check the tightness of this compartment and therefore to analyze the control of tight junctions assembly. A small cell-impermeant probe like Lucifer Yellow microinjected into a cell was used to demonstrate and then to study the regulation of cell to cell communication via gap junctions. The presence of calcium in the lumen of RTF was detected by microinjection of a properly designed probe: Calcium Green which becomes fluorescent in the presence of the ligand. The lumen to cell transport or endocytosis of thyroglobulin, the thyroid prohormone, which is stored into the lumen of the follicles, is currently studied by microinjection of TRITC-labeled thyroglobulin. Coupled to image processing and videorecorder systems, kinetic analysis and quantitative measurements can be performed.
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Abbreviations
- CG:
-
Calcium Green
- FITC-D:
-
Dextran labeled with fluorescein isothiocyanate
- LY:
-
Lucifer Yellow
- RTF:
-
Reconstituted thyroid follicle
- Tg:
-
Thyroglobulin
- Tg-TRITC:
-
Thyrogloblin labeled with tetramethyl rhodamine isothiocyanate
- TSH:
-
Thyrotropin
References
BERNIER-VALENTINE, F., KOSTROUCH, Z., RABILLOUD, R., and ROUSSET, B. (1991). “Analysis of the thyroglobulin internalization process using in vitro reconstituted thyroid follicles: evidence for a coated vesicle-dependent endocytic pathway.” Endocrinology 129:2194–2201.
FAYET, G., MICHEL-BECHET, M., and LISSITZKY, S. (1971). “Thyrotropin-induced aggregation and reorganization into follicles of isolated porcine thyroid cells in culture.” Eur. J. Biochem. 24:100–111.
KOSTROUCH, Z., MUNARI-SILEM, Y., RAJAS, F., BERNIER-VALENTIN, F., and ROUSSET, B. (1991). “Thyroglobulin internalized by thyrocytes passes through early and late endosomes.” Endocrinology 129:2202–2211.
LISSITZKY, S., FAYET, G., GIRAUD, A., VERRIER, B., and TORRESANI, J., (1971). “Thyrotropin-induced aggregation and reorganization into follicles of isolated porcine thyroid cells.” Eur. J. Biochem. 145:414–427.
MUNARI-SILEM, Y., AUDEBET, C., and ROUSSET, B. (1991). “Hormonal control of cell to cell communication: regulation by thyrotropin of the gap-junction-mediated dye transfer between thyroid cells.” Endocrinology 128:3299–3309.
ROUSSET, B., PONCET, C., and MORNEX, R. (1976). “Evidence for a thyroxine secretion by isolated hog thyroid cells.” Biochim. Biophys. Acta 437:543–561.
ROUSSET, B., KOSTROUCH, Z., POMMIER, J., and MUNARI-SILEM, Y. (1990). “Immunolocalization of functional thyroperoxidase and expression of thyroid cell differentiation.” In: Thyroperoxidase and thyroid autoimmunity (P. Carayon and J. Ruf, eds.). Vol 207, pp. 117–125. Colloque INSERM/John Libbey Eurotext, Ltd.
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Rousset, B., Munari-Silem, Y., Gire, V. et al. Dynamic analysis of drug action on in vitro reconstituted thyroid follicle by microinjection of tracer molecules and videomicroscopy. Cell Biol Toxicol 8, 1–7 (1992). https://doi.org/10.1007/BF00130505
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DOI: https://doi.org/10.1007/BF00130505