Preclinical evaluation of a mercaptobenzamide and its prodrug for NCp7-targeted inhibition of human immunodeficiency virus.

Although the effective use of highly active antiretroviral therapy results in the suppression of virus production in infected individuals, it does not eliminate the infection and low level virus production in cells harboring virus in sanctuary sites. Thus, the continued search for new antiretroviral agents with unique and different mechanisms of HIV inhibition remains critical, and compounds that can reduce the level of virus production from cells already infected with HIV, as opposed to preventing de novo infection, would be of great benefit. A mercaptobenzamide (MDH-1-38) and its prodrug (NS1040) are being developed as potential therapeutic compounds targeting the zinc finger of HIV nucleocapsid. In the presence of esterase enzymes, NS1040 is designed to be converted to MDH-1-38 which has antiviral activity. While we presume that NS1040 is rapidly converted to MDH-1-38 in all experiments, the two compounds were tested side-by-side to determine whether the presence of a prodrug affects the antiviral activity or mechanism of action. The two compounds were evaluated against a panel of HIV-1 clinical isolates in human PBMCs and monocyte-macrophages and yielded EC50 values ranging from 0.7 to 13 µM with no toxicity up to 100 µM. MDH-1-38 and NS1040 remained equally active in human PBMCs in the presence of added serum proteins as well as against HIV-1 isolates resistant to reverse transcriptase, integrase or protease inhibitors. Cell-based and biochemical mechanism of antiviral action assays demonstrated MDH-1-38 and NS1040 were virucidal at concentrations of 15 and 50 µM, respectively. Cell to cell transmission of HIV in multiple passages was significantly reduced in CEM-SS and human PBMCs by reducing progeny virus infectivity at compound concentrations greater than 2 µM. The combination of either MDH-1-38 or NS1040 with other FDA-approved HIV drugs yielded additive to synergistic antiviral interactions with no evidence of antiviral antagonism or synergistic toxicity. Serial dose escalation was used in attempts to select for HIV strains resistant to MDH-1-38 and NS1040. Virus at several passages failed to replicate in cells treated at increased compound concentrations, which is consistent with the proposed mechanism of action of the virus inactivating compounds. Through 14 passages, resistance to the compounds has not been achieved. Most HIV inhibitors with mechanism of antiviral action targeting a viral protein would have selected for a drug resistant virus within 14 passages. These studies indicate that these NCp7-targeted compounds represent new potent anti-HIV drug candidates which could be effectively used in combination with all approved anti-HIV drugs.

The biological effects of structural variation at the meta position of the aromatic rings and at the end of the alkenyl chain in the alkenyldiarylmethane series of non-nucleoside reverse transcriptase inhibitors.

In an effort to elucidate a set of structure-activity relationships in the alkenyldiarylmethane (ADAM) series of non-nucleoside reverse transcriptase inhibitors, a number of modifications were made at two locations: (1) the meta positions of the two aromatic rings and (2) the end of the alkenyl chain. Forty-two new ADAMs were synthesized and evaluated for inhibition of the cytopathic effect of HIV-1(RF) in CEM-SS cell culture and for inhibition of HIV-1 reverse transcriptase. The size of the aromatic substituents was found to affect anti-HIV activity, with optimal activity appearing with Cl, CH(3), and Br substituents and with diminished activity occurring with smaller (H and F) or larger (I and CF(3)) substituents. The substituents at the end of the alkenyl chain were also found to influence the antiviral activity, with maximal activity associated with methyl or ethyl ester groups and with diminished activity resulting from substitution with higher esters, amides, sulfides, sulfoxides, sulfones, thioesters, acetals, ketones, carbamates, ureas, and thioureas. Twelve of the new ADAMs displayed submicromolar EC(50) values for inhibition of the cytopathic effect of HIV-1(RF) in CEM-SS cells. Selected ADAMs, 19 and 21, were compared to previously published ADAMs 15 and 17 for antiviral efficacy and activity against the HIV-1 reverse transcriptase enzyme. All four ADAMs were found to inhibit HIV-1 reverse transcriptase enzyme activity, to inhibit the replication of a variety of HIV-1 clinical isolates representing syncytium-inducing, nonsyncytium-inducing, and subtype representative isolates, and to inhibit HIV-1 replication in monocytes. Subsequent assessment against a panel of site-directed reverse transcriptase mutants in NL4-3 demonstrated no effect of the K103N mutation on antiviral efficacy and a slight enhancement (6- to 11-fold) in sensitivity to AZT-resistant viruses. Additionally, ADAMs 19 (44-fold) and 21 (29-fold) were more effective against the A98G mutation (found in association with nevirapine resistance in vitro), and ADAM 21 was 5-fold and 2-fold more potent against the Y181C inactivation mutation than the previously reported ADAMs 15 and 17, respectively. All four ADAMs were tested for efficacy against a multidrug-resistant virus derived from a highly experienced patient expressing resistance to the reverse transcriptase enzyme inhibitors AZT, ddI, 3TC, d4T, foscarnet, and nevirapine, as well as the protease inhibitors indinavir, saquinavir, and nelfinavir. ADAM 21 was 2-fold more potent than ADAM 15 and 6-fold more potent than ADAMs 17 and 19 at preventing virus replication. Thus, we have identified a novel series of reverse transcriptase inhibitors with a favorable profile of antiviral activity against the primary mutation involved in clinical failure of non-nucleoside reverse transcriptase inhibitors, K103N, and that retain activity against a multidrug-resistant virus.

Successful use of cuffed central venous hemodialysis catheters inserted percutaneously.

Although endogenous fistulae and grafts are preferred for permanent hemodialysis access, central venous catheters are often required for varying intervals when creating permanent access is not feasible. The prospective experience with 118 catheters in over a 3.5-yr period is reported; 93 (79%) were placed by percutaneous techniques, and 25 (21%) were placed by operative techniques. Seventy seven catheters (65%) were placed in the subclavian vein, 36 (31%) were placed in the internal jugular vein (usually right side), and 5 (4%) were placed in the femoral vein. Early postplacement complications were infrequent. Catheter function at last local follow-up ranged from several days to nearly 2 yr, averaging approximately 3 mo, even though many patients returned to their referring centers with a functioning catheter after only a short follow-up. Actuarial survival for percutaneously placed catheters was approximately 60% at 6 mo and 30% at 12 mo. Catheter failure occurred in 36% of cases, equally divided between malfunction (thrombosis refractory to fibrinolysis, extrusion, kinking, or related event) and infection with septicemia requiring removal. Such failure was not more frequent after percutaneous placement than after operative placement. Failure due to mechanical malfunction, but not that due to infection, tended to be less frequent among catheters placed in the internal jugular vein than among catheters placed in the subclavian vein. Finally, infection with septicemia involved 22% of all catheters and occurred at an average cumulated rate of approximately one infection per patient-year. Coagulase-positive staphylococcus was the most common organism isolated.(ABSTRACT TRUNCATED AT 250 WORDS)

Behavioral pharmacology of NPC 17742, a competitive N-methyl-D-aspartate (NMDA) antagonist.

The behavioral effects of the competitive N-methyl-D-aspartate (NMDA) antagonist 2R,4R,5S-2-amino-4,5-(1,2-cyclohexyl)-7-phosphonoheptanoate (NPC 17742) were compared with those of its parent compound, 2-amino-4,5-(1,2-cyclohexyl)-7-phosphonoheptanoate (NPC 12626), and other reference agents in a variety of operant-based tasks in rodents. In mice trained to lever press under a fixed-ratio (FR) 20 reinforcement schedule, NPC 17742 was 6.2 times more potent than NPC 12626 and equipotent with the competitive NMDA antagonist [E]-2-amino-4-methyl-5-phosphono-3-penteneoic acid (CGP 37849) in reducing rates of responding. NPC 17742 was also 3.5 and 4.5 times more potent than [+-]cis-4-phosphonomethyl-2-piperidine carboxylate (CGS 19755) and [+-] 3-(2-carboxypiperazin-4-yl)propyl-1-phosphonate (CPP), respectively, and half as potent as 3SR, 4aRS, 6SR, 8aRS-6-(phosphonomethyl)-1,2,3,4,4a,5,6,7,8,8a- decahydroisoquinoline-3-carboxylate (LY 274614) in this paradigm. In rats trained to discriminate 4.0 mg/kg NPC 17742 from saline, NPC 17742 was 5.7 times more potent than NPC 12626 in substituting for NPC 17742. CGS 19755 also substituted for NPC 17742, but a maximum of only 50% NPC 17742 lever responding was observed after LY 274614 administration. In rats trained to lever press in a modified Geller-Seifter procedure, NPC 17742 and NPC 12626, like the benzodiazepine chlordiazepoxide, increased rates of punished responding. Neither tolerance nor sensitization to the anti-punishment effects were observed upon administration of NPC 17742 for 5 consecutive days. The results are consistent with NPC 17742 being a potent, systemically active compound whose behavioral effects are mediated through interaction with the NMDA receptor.(ABSTRACT TRUNCATED AT 250 WORDS)