, milrinone and enoximone are used clinically for short-term treatment of cardiac failure in the presence of cardiogenic shock. PDE3 inhibitors are indicated as inotropics for the therapy of acute heart failure if catecholamines are ineffective. Well controlled studies have shown that these drugs generally increase mortality, when used for the therapy of acute heart failure, so they have to be applied under close observation.
Peripheral artery disease
is used for the treatment of intermittent claudication. This drug has a much weaker positive inotropic effect than those drugs used for the therapy of acute heart failure, and lacks significant adverse cardiac effects.
Recognition that the knowledge about PDE could be used to develop drugs that were PDE inhibitors led to extensive research. Most studies used analogues of the nucleotide substrates or derivatives of natural product inhibitors such as xanthine and papaverine. The active site of PDE3 can be considered as a summary of ideas about receptor topography resulting from the first generation inhibitors. The model of the Wells et al. version as cited in Erhardt and Chou includes the following:
Since selective PDE3 inhibitors were recognised to be cardiotonic drugs there has been great interest in developing new drugs in this category. A large number of heterocyclic compounds have been synthesized during related research. These compounds constitute a second generation of PDE inhibitors. Although they have been directed mostly at PDE3, they present significant structure-activity relationship for the PDEs in general. A "heterocycle-phenyl-imidazole" pattern has been considered to be necessary for positive inotropic activity in cardiac muscle and many second generation inhibitors fit this pattern. The heterocycle region: Within each heterocycle there is the presence of a dipole and an adjacent acid proton. These atoms are believed to mimic the electrophilic center in the phosphate group in cAMP and are confirmed as the primary site of binding. The heterocycle is a transition state analogue inhibitor of PDE. Alkyl groups, limited to either methyl or ethyl, on the heterocyclic ring usually enhance potency, with occasional exceptions. The phenyl region: It seems that an electron rich centre, such as phenyl, needs to be present. The beneficial effects of small alkyl groups on the heterocycle could be to twist the central ring away from exact coplanarity with the heterocyclic ring. There is a similar twist in cAMP and there is general agreement that high affinity PDE3 inhibitors should adopt an energetically favoured planar conformation that mimics the anti conformation of cAMP. The imidazole region: Various substituents have been placed at the para-position of the central phenyl ring. They are electron rich moieties and apparently a positively charged moiety cannot be tolerated in this region of the PDE receptor. There is general agreement about this inhibitor potency: lactam ≥ alkyl-CONH- ≥ imidazoyl = pyridine in place of the central phenyl with its nitrogen in the analogous 4 position ≥ alkyl-S- > simple ether > halide = amine > imidazolium. Identification of features common to the most selective inhibitors has led to a "five-point model" with:
Presence of a strong dipole at one end of the molecule.
An adjacent acid proton.
A small sized alkyl substituent on the heterocyclic ring.
Theophylline is a non-selective agent. In contrast, meribendan is a highly selective inhibitor. Also, meribendan has a higher level of selectivity in comparison with the parent compound CI-930 because, beside the basic nitrogen adjacent to the lactam moiety it possesses another basic nitrogen, opposite to the primary binding site.
Research
is an analog of trequinsin, and like trequinsin, is a dual inhibitor of the phosphodiesterase enzymes PDE-3 and PDE-4. As of October 2015, inhaled RPL-554 delivered via a nebulizer was in development for COPD and had been studied in asthma.