Abstract
Mammalian phosphodiesterase types 3 and 4 (PDE3 and PDE4) hydrolyze cAMP and are essential for the regulation of this intracellular second messenger in many cell types. Whereas these enzymes share structural and biochemical similarities, each can be distinguished by its sensitivity to isozyme-specific inhibitors. By using a series of chimeric enzymes, we have localized the region of PDE4 that confers sensitivity to selective inhibitors. This inhibitor specificity domain lies within a short sequence at the carboxyl terminus of the catalytic domain of the protein, consistent with the competitive nature of inhibition by these compounds. Surprisingly, the identified region also includes some of the most highly conserved residues among PDE isoforms. A yeast-based expression system was used for the isolation and characterization of mutations within this area that confer resistance to the PDE4-specific inhibitor rolipram. Analysis of these mutants indicated that both conserved and unique residues are required for isoform-specific inhibitor sensitivity. In some cases, combined point mutations contribute synergistically to the reduction of sensitivity (suppression of IC50). We also report that several mutations display differential sensitivity changes with respect to distinct structural classes of inhibitors.
Highlights
CAMP is a ubiquitous intracellular second messenger that activates a family of cAMP-dependent protein kinases
Mutants selected for resistance to rolipram showed resistance to other PDE4 inhibitors, but in several cases the magnitude of the effects varied greatly suggesting that the mutants themselves can act as probes that may sense structural features important for inhibitor function
Chimeric PDEs Reveal an Inhibitor Specificity Domain—To localize the PDE region that encodes the determinants of inhibitor specificity, we created a series of chimeric PDEs composed of sequences from a representative human type 3 enzyme (HSPDE3A) and a representative rat type 4 enzyme (RNPDE4B1)
Summary
Yeast and Bacterial Strains—Saccharomyces cerevisiae strain PP5 (MATa leu leu112 ura his532 his cam pde1::URA3 pde2::HIS3) (ATCC number 96135) was used in all expression studies and genetic selections. To create chimera CH10 the upstream primer TGGCAGATCTCAATGGTCCAGCTAAAT(2869) containing a BglII site and the downstream primer GATCGAATTCATTGACAATACCATCTGTCC containing an EcoRI site were used to generate a 77-bp PDE3 fragment This was digested with BglII and EcoRI. A new “enriched” library was prepared by extracting plasmid DNA from the selected yeast colonies and transforming this material into bacterial cells followed by a large scale DNA preparation This DNA was transformed into PP5 cells, and an in vivo heat shock treatment in the presence of rolipram was done. To confirm that rolipram resistance was caused by a mutant PDE construct, DNA was extracted, purified, and retransformed into PP5 yeast cell and subjected to another round of heat shock treatment in the presence of rolipram. Primers used to introduce these mutations contained unique restriction sites to facilitate the identification of mutants as follows: M409K, TCCCTGTTGGAATTCCTCCTTGATGCGATCAG(1214), contains EcoRI; E425G, ATCACACATTGGTGATATCCCCATTCCCCTCTC(1261), contains EcoRV; F412S, TCCCTGTTGGAAGCTTTCCTCCATGATG(1221), contains HindIII; Y401C, AGTCCATTGCCGGCACAACTCCAAGGA(1189), contains NaeI; K439R, GAAACCAACCTGCGATCGTTCCACAGAAGC(1303), contains PvuI; I408T, AAACTCCTCCATGGTGCGATCAGTCCA contains(1210), NcoI; I448T, CCACAATGGATGTACAGTGTAGTCAATGAA, contain(1330) BsrGI; C430G, TGTGTTTATCACCCATGGGGCTAATCTCC, contains(1272) NcoI; SM1, CATTGGGCTAATCGGCAGGCCTCTCTCCCGTTCT(1254), contains StuI; SM2, CTTTTCCACAGAAGGTGCAGATCTATCACACATTGG(1281), contains BglII; SM3, GAAACCAACCTGGAGGTTTGCCAGCTGAGCTGTGTGTTT(1294), contains PvuII; SM4, AGGCTGAACCAGGGAGTCGTACGACTCCCACAATGG(1351), contains BsiWI; SM5, CCATTGCCGATAGAGCTCCTTGCACTTGGCCGGGTTGCTCAG(1171), contains SacI; SM6, GCGATCAGTCCACTGCAGATGCAACTCCAAGGA(1189), contains PstI; SM7, AATCTCCATTCCCAGCGAAGCTTCTTCGTCTCCCTGTTG(1240), contains HindIII; SM8, TTTGTCTCCCTGTTCGTAGAATTCCTCCATGATGC(1220), contains EcoRI; SM9, GTAGTCAATGAAGCTTTCCTGGGACTTTTC(1312), contains HindIII; SM10, TCCCTGTTGGAAGAATTCGTTCACGATGCGATCAGT(1213), contains EcoRI; SM11, TGTGTGTTTGTCCATGAATGGGGATATCTCCATTCCCCT(1264), contains EcoRV; SM12 CTGGGACTTTTCTAGAGAAGCTGTGTG(1297), contains XbaI; and SM13, GGAAAACTCCTCCGCGATGCGATCGGTCCATTGCCGATA(1201) contains PvuI
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