We have investigated two clonal mouse olfactory placode (OP) cell lines as a model system for studying endogenous odorant receptor (OR) regulation. Both lines can be differentiated into bipolar neurons with transcriptional profiles consistent with mature sensory neurons. We show that single cells exhibit monogenic OR expression like sensory neurons in vivo. Monogenic OR expression is established in undifferentiated cells and persists through differentiation, but OR gene choice is not a clonal property of either cell line. Interestingly, OR RNA shifts from predominantly nuclear to cytoplasma during differentiation of both cell lines. Finally, our data indicate that a restricted subset of OR genes and OR clusters are over-represented in cell populations, suggesting either a pre-existing intrinsic bias in OP founder cells or extrinsic influences arising from culture conditions. Keywords: differentiation, odorant receptor, regulation, transcription.
J. Neurochem. (2009) 108, 486-497.JOURNAL OF NEUROCHEMISTRY | 2009NEUROCHEMISTRY | | 108 | 486-497 doi: 10.1111NEUROCHEMISTRY | /j.1471NEUROCHEMISTRY | -4159.2008 Production of a functional OR protein is required to ensure the 'locking in' of the selected OR gene (Serizawa et al. 2003;Lewcock and Reed 2004). If a sensory neuron initially transcribes an OR gene that does not encode an intact open reading frame, and thus cannot be translated into a functional OR protein, the sensory neuron will make another OR choice. Feedback regulation ensures that the sensory neuron will be productive, as the genome is populated with OR pseudogenes that might not have yet accumulated enough mutations to render their promoters non-functional. Thus, the process leading to monogenic OR expression seems to involve three discrete steps: specification of a subset of ORs (e.g., ORs appropriate for a spatial zone in the olfactory epithelium), random selection of one OR among specified subsets, and commitment to the selected OR via feedback regulation.The existence of a suitable OSN cell line could greatly facilitate investigation of the molecular mechanisms of OR regulation. Several cell lines derived from olfactory tissue have been described (Largent et al. 1993;MacDonald et al. 1996;Goldstein et al. 1997;Murrell and Hunter 1999;Barber et al. 2000;Illing et al. 2002), yet to our knowledge, only two of these lines appear to express endogenous ORs (Illing et al. 2002). These two clonal olfactory placode (OP) cell lines, termed OP6 and OP27, were characterized by gene expression profiling as derived from intermediate-late stages in the OSN cell lineage. Both lines are immortalized by a temperature-sensitive large T-antigen transgene, and can be induced by retinoic acid at the non-permissive temperature to differentiate into bipolar neurons that express markers for OSNs, including OR genes. In previous studies, only one OR gene, Olfr1355, was identified in differentiated OP27 cell populations, and two closely related OR genes, Olfr57 and Olfr1351, were identified in differentiated OP6...
