Expression and tracking of fluorescent fusion proteins has revolutionized our understanding of basic concepts in cell biology. The protocol presented here has underpinned much of the in vivo results highlighting the dynamic nature of the plant secretory pathway. Transient transformation of tobacco leaf epidermal cells is a relatively fast technique to assess expression of genes of interest. These cells can be used to generate stable plant lines using a more time-consuming, cell culture technique. Transient expression takes from 2 to 4 days whereas stable lines are generated after approximately 2 to 4 months.
Tobacco Bright Yellow‐2 (BY‐2) suspension cells are a widely used biological material for studying plant cell morphology and physiology. These cells are easy to transform and maintain in culture and tolerate transformation with fluorescent proteins such as the green fluorescent protein and its derivatives. These, by the addition of plant or mammalian targeting sequences, can be directed to specific subcellular locations for the study of cell dynamics in vivo.
This unit describes the production of BY‐2 cell stable transformants via an Agrobacterium based method to permit the visualisation of cellular components in vivo by epifluorescence or confocal microscopy.
The osteoblast-like cells, UMR 106-01, express PTH receptors that are coupled to adenylate cyclase. Recently, we reported the isolation of a UMR 106-01 subclone, UMR 4-7, that is stably transfected with a Zn(++)-inducible mutant of the regulatory subunit of protein kinase A. Incubation of UMR 4-7 cells with Zn++ renders the cells unresponsive to cAMP agonists. This subclone, therefore, seemed particularly suitable for studies of PTH receptor regulation. In UMR 106-01 cells, PTH receptors are strikingly down-regulated by pretreatment with 8-Br-cAMP or 3-isobutyl-1-methylxanthine for 2 days. In UMR 4-7 cells, this effect is totally prevented by prior and concurrent treatment with Zn++. Zn++ addition to UMR 106 cells does not modify these responses. Treatment with the PTH agonist [Nle8,18,Tyr34]bovine PTH(1-34)NH2 [(NlePTH(1-34)] also markedly down-regulates PTH receptors in UMR 106 cells, but this effect is only partially inhibited in Zn(++)-induced UMR 4-7 cells. At high doses, the PTH antagonist, [Nle8,18,Tyr34]bovine PTH(3-34)NH2 [NlePTH(3-34)] also (partially) reduces PTH receptor availability. Receptor regulation by NlePTH(3-34) is not blocked in the cAMP-resistant cells, however. Coincubation of submaximal doses of NlePTH(1-34) (1 nM) with NlePTH(3-34) (1 microM) reduces receptor availability more than when the cells are exposed to either ligand alone. This decrease is only partially inhibited in Zn(++)-induced UMR 4-7 cells. In contrast to its additive effect on receptor regulation, NlePTH(3-34) efficiently competes for binding to the PTH receptor in UMR 106-01 cells and antagonizes the stimulatory effects of NlePTH(1-34) on both intracellular cAMP accumulation and gene expression driven by a transiently transfected synthetic cAMP-responsive enhancer. In conclusion, homologous down-regulation of PTH receptors is mediated by activation of both cAMP-dependent (via protein kinase A) and cAMP-independent pathways. PTH activates both pathways, whereas the effect of NlePTH(3-34) appears to be exclusively cAMP-independent. These results give new insights into mechanisms of PTH receptor regulation.
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