Joanna Clancy

RABBIT CORPUS CAVERNOSUM SMOOTH MUSCLE SHOWS A DIFFERENT PHOSPHODIESTERASE PROFILE THAN HUMAN CORPUS CAVERNOSUM

PURPOSE Cyclic nucleotide phosphodiesterases (PDEs) are important regulators of cAMP/cGMP secondary messenger systems. Fluctuations in the level of cyclic nucleotides control the smooth muscle tone of corpus cavernosum. It had been shown that milrinone, a PDE3 inhibitor, was as potent as sildenafil, a PDE5 inhibitor, in relaxing human corpus cavernosum. However, milrinone is much less effective in relaxing rabbit corpus cavernosum than sildenafil. PDEs in rabbit corpus cavernosum were characterized and organ bath experiments were carried out in an attempt to search for the biochemical basis of this species difference. MATERIALS AND METHODS In a biochemical study, PDE isozymes from rabbit corpus cavernosum were isolated by FPLC and characterized by PDE assay. In organ bath experiments, rabbit corpus cavernous tissue strips were precontracted and increasing doses of various inhibitors were added. RESULTS The major PDE in rabbit corpus cavernosum is PDE5. There are small amounts of PDE2 and PDE1. PDE3, which contributes significantly to the total PDE activity in human corpus cavernosum, is apparently lacking in rabbit corpus cavernosum. Organ bath experiments with isotype-specific inhibitors confirm this conclusion. CONCLUSION The distribution of PDE isozymes in corpus cavernosum is different in human and in rabbit. This could be the biochemical basis for the differential effects of milrinone in relaxing rabbit and human corpus cavernosum. Our study emphasizes the importance of a more complete understanding of the tissue distribution of targeted proteins in an animal model before applying the results to humans.

Characterization of a novel phosphodiesterase type 5 inhibitor: JNJ-10258859

We have characterized a novel, potent, and selective phosphodiesterase type 5 inhibitor, JNJ-10258859 ((R)-(-)-3-(2,3-dihydro-benzofuran-5-yl)-2-[5-(4-methoxy-phenyl)-pyrimidin-2-yl]-1,2,3,4-tetrahydro-pyrrolo[3,4-b]quinolin-9-one). Its inhibitory effects on phosphodiesterase 1-6 were determined using enzymes partially purified from human tissues. The compound inhibited phosphodiesterase type 5 with a K(i) of 0.23 nM and displayed excellent selectivity versus phosphodiesterase types 1-4 (>/=22,000 fold compared to phosphodiesterase type 5). It had 27-fold selectivity over phosphodiesterase type 6 as well. In a cell-based assay, JNJ-10258859 was more potent than sildenafil in potentiating nitric oxide (NO) induced accumulation of intracellular cGMP. The in vivo effect of JNJ-10258859 was evaluated in an anesthetized dog model via intravenous administration. The compound had similar efficacy to sildenafil in enhancing both the amplitude and duration of intracavernosal pressure increase induced by electrical stimulation to the pelvic nerve. No significant effects on either mean aortic pressure or heart rate were observed during the course of the experiments. This data suggests that JNJ-10258859 could be a useful treatment for erectile dysfunction.

‘Superbugs’: new antibacterials in the pipeline

‘Superbugs’ in the context discussed herein are Gram-positive pathogens that are multi-resistant to common antibiotic classes. Although many of these organisms were recently susceptible only to vancomycin, therapeutic options are now expanding with the recent approvals for the use of quinupristin-dalfopristin and linezolid against some of these pathogens. Compounds currently under development include cell-wall active agents, such as anti-MRSA cephalosporins, and the glycopeptide LY-333328 to treat resistant Gram-positive infections. More active topoisomerase inhibitors, such as gemifloxacin, sitafloxacin and non-fluoroquinolones, are being evaluated for treatment of multi-drug resistant streptococci, as is the penem faropenem. Novel protein synthesis inhibitors, such as new ketolides and the glycylcycline GAR-936, are also in development; in addition, the lipopeptides daptomycin and HMR-1043 are being evaluated. Safety and efficacy in the treatment of serious infections are two major issues that will determine the eventual success of these agents.

Synthesis and biological activities of novel β-carbolines as PDE5 inhibitors

A series of N(2)-furoyl and N(2)pyrimidinyl beta-carbolines was discovered to possess potent inhibitory activity against PDE5. During the synthesis we developed a tandem resin quenching protocol, which allowed us to synthesize large number of target compounds in a rapid fashion. Representative compounds exhibit superior selectivity to sildenafil versus other isozymes of PDEs, and demonstrated in vivo efficacy in increasing introcavernosal pressure in dogs.

Induction of the progesterone receptor gene in estrogen target cells monitored by branched DNA signal amplification

Estrogens have multiple effects on the growth and development of cells in their target tissues, including the uterus, ovary, breast, bone marrow and brain. The hormone regulates the transcription of diverse genes in these tissues via the estrogen receptor, a nuclear transcription factor. Naturally occurring estrogens and estrogen analogs including selective estrogen receptor modulators (SERMs), constitute important therapies for breast cancer and osteoporosis, and are major components of oral contraceptives. The in vitro biologic activities of pharmaceutical estrogen agonists and antagonists have frequently been monitored by cotransfection assay, where exogenous estrogen receptor and reporter genes are transiently inserted into a heterologous, non receptor-containing cell line, such as those derived from kidney cells. Here we describe an alternative to this method, where induction of an endogenous estrogen-responsive gene, the progesterone receptor gene, is monitored by branched DNA signal amplification. Assays are performed with cultured cells derived from estrogen-responsive tissues; namely, breast, uterine endothelium and bone. Hormonal induction occurs via the endogenous estrogen receptor of these cells. Our data show that SERMs, which are estrogen agonists on bone in vivo, antagonize estrogen-dependent target gene induction in conditionally immortalized osteoblast-like cells.

Molecular properties and preclinical pharmacology of JNJ-1250132, a steroidal progesterone receptor modulator that inhibits binding of the receptor to DNA in vitro

Progesterone receptor modulators have diverse potential therapeutic uses, including the treatment of endometriosis, uterine fibroids and breast cancer. Here we describe the molecular properties and preclinical pharmacology of a new steroidal progestin antagonist, JNJ-1250132. The compound is a high affinity ligand for the progesterone receptor, possessing cross-reactivity with other steroid receptors comparable to that of steroidal antagonists such as mifepristone. It inhibits progestin-inducible alkaline phosphatase gene expression in T47D human breast cancer cells, and also inhibits their in vitro proliferation. It inhibits gestation in rats and progesterone-dependent endometrial transformation in rabbits with efficacies comparable to mifepristone. Like mifepristone, it is a glucocorticoid antagonist in vivo. In cell-free DNA binding assays, the compound inhibits binding of the human progesterone receptor to a progesterone response element, and thus is similar to onapristone in this regard. In contrast, as judged by proteolytic analysis, JNJ-1250132 induces a receptor conformation more similar to that induced by mifepristone, which promotes receptor binding to DNA. Therefore, JNJ-1250132 has unique effects on the progesterone receptor that may translate into a novel clinical profile.

Comparison of endothelin-1-mediated tissue tension and calcium mobilization effects in isolated rabbit corpus cavernosum

OBJECTIVES To directly compare and contrast the effects of endothelin-1 (ET-1) and adrenoreceptor agonists norepinephrine and phenylephrine on eliciting calcium influx in primary rabbit corpus cavernosum cells and their ability to elicit tissue contractions. The potent vasoconstrictor peptide ET-1 and the alpha-adrenoreceptor agonists are important modulators of smooth muscle tone in the penile corpus cavernosum. However, the mechanisms involved in maintaining smooth muscle tone and contraction are not clearly understood. METHODS Intracellular calcium mobilization was measured in cultured corpus cavernosum smooth muscle cells using calcium-sensing dyes in conjunction with a fluorometric imaging plate reader. Tissue tension studies on rabbit corpus cavernosum were conducted using organ chambers. RESULTS ET-1 at concentrations as low as 10 nM was sufficient to induce a transient increase of intracellular calcium in these cells. In contrast, concentrations of 1 mM and greater of norepinephrine and phenylephrine were required to elicit comparable calcium fluxes in cavernosum cells. Tissue bath studies indicated that ET-1 is a potent stimulator of corpus cavernosum smooth muscle contraction, with concentrations as low as 10 nM sufficient to initiate contraction. CONCLUSIONS The potency of ET-1 in producing contraction on tissue strips and inducing calcium flux suggests that ET-1 might be an important mediator for modulating and maintaining corpus cavernosum smooth muscle tone. Therefore, additional exploration of the role of endothelins and their receptors in the tumescence and detumescence states of the penis would be extremely valuable.