We report the cloning and characterization of two isoforms of human t~c-adrenoceptor eDNA (t~c-2, a~c-3). These isoforms are generated by alternative splicing and differ from the clone we previously isolated (ale-l) in their length and sequences of the C-terminal domain. Tissue distribution of mRNAs showed that these variants co-express with a~c-1 in the human heart, liver, cerebellum and cerebrum. Despite the structural differences, functional experiments in transfected CHO cells showed that the three isoforms have similar ligand binding properties, and all couple with phospholipase C/Ca 2+ signaling pathway.
A unique cytochrome P-450 (P-450) is involved in fungal denitrification, acting as a nitric oxide reductase. The phylogenetic classification of the P-450 (P-450nor) into the group of bacterial P-450s along with its involvement in the anaerobic process are of evolutional interest. The corresponding gene, CYP 55, of the fungus Fusarium oxysporum was isolated and sequenced. The P-450nor gene contained 7 introns that consisted of 49 to 55 bp. The presence of the introns suggested that horizontal transfer of the gene from bacteria to the fungus, if it has occurred, was an early event in evolution. Besides a TATA box, several inverted repeats were found in the 5'-upstream flanking region. One inverted repeat exhibited the same sequence as the binding site of FNR (fumarate and nitrate reduction), a DNA-binding, O2 (dioxygen)-sensor protein that positively regulates expressions of many hypoxic genes in Escherichia coli and other bacteria. The result suggested that the expression of P450nor is regulated in response to oxygen tension by an FNR-like system. Northern blot analyses showed that both nitrate and nitrite are the actual inducers of P-450nor and that its expression is predominantly regulated at the transcriptional level. These results raise the interesting possibility that the expression of the fungal denitrification system is regulated, as in the case of bacterial nitrate respiration, by a set of mechanisms, i.e., a combination of an FNR-like system and a system responding to nitrate/nitrite.
1. To investigate the structure-activity relationships of alpha-adrenoceptor agonists for the alpha 1-adrenoceptor subtypes, we have compared the imidazoline class of compounds, oxymetazoline and cirazoline, with the phenethylamine, noradrenaline, in their affinities and also in their intrinsic activities in Chinese hamster ovary (CHO) cells stably expressing the cloned human alpha 1-adrenoceptor subtypes (alpha 1a-, alpha 1b-, and alpha 1d-subtypes). 2. Radioligand binding studies with [125I]-HEAT showed that cirazoline and oxymetazoline had higher affinities at alpha 1a-subtype than at alpha 1b- and alpha 1d-subtypes, while noradrenaline had higher affinity at the alpha 1d-subtype than at alpha 1a- and alpha 1b-subtypes. 3. In functional studies, cirazoline caused transients of cytosolic Ca2+ concentrations ([Ca2+]i response) in a concentration-dependent manner and developed a maximal response similar to that to noradrenaline in CHO cells expressing the alpha 1a-subtype, while it acted as a partial agonist at alpha 1b- and alpha 1d-adrenoceptors. Oxymetazoline, on the other hand, was a weak agonist at alpha 1a-adrenoceptors, and has no intrinsic activity at the other subtypes. 4. Using the phenoxybenzamine inactivation method, the relationships between receptor occupancy and noradrenaline-induced [Ca2+]i response for alpha 1a- and alpha 1d-subtypes were found to be linear, whereas it was moderately hyperbolic for the alpha 1b-subtype, indicating the absence of receptor reserves in CHO cells expressing alpha 1a- and alpha 1d-subtypes while there exists a small receptor reserve for CHO cells expressing the alpha 1b-subtype. 5 In summary, our data obtained in cells exclusively expressing a single receptor subtype support the idea that the relative role of agonist affinity and intrinsic activity may vary depending on the subtype of alphal-adrenoceptor.
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