Preclinical pharmacokinetics of a HepDirect prodrug of a novel phosphonate-containing thyroid hormone receptor agonist.

The prodrug [(2R,4S)-4-(3-chlorophenyl)-2-[(3,5-dimethyl-4-(4'-hydroxy-3'-isopropylbenzyl)phenoxy)methyl]-2-oxido-[1,3,2]-dioxaphosphonane (MB07811)] of a novel phosphonate-containing thyroid hormone receptor agonist [3,5-dimethyl-4-(4'-hydroxy-3'-isopropylbenzyl)phenoxylmethylphosphonic acid (MB07344)] is the first application of the HepDirect liver-targeting approach to a non-nucleotide agent. The disposition of MB07811 was characterized in rat, dog, and monkey to assess its liver specificity, which is essential in limiting the extrahepatic side effects associated with this class of lipid-lowering agents. MB07811 was converted to MB07344 in liver microsomes from all species tested (CL(int) 1.

HepDirect prodrugs for targeting nucleotide-based antiviral drugs to the liver.

HepDirect prodrugs represent a novel class of cytochrome P450-activated prodrugs capable of targeting certain drugs to the liver. In this review, the HepDirect prodrug concept and its use for the delivery of nucleotides to the liver for the treatment of viral hepatitis is summarized. Preclinical and clinical data for the most advanced HepDirect prodrug, pradefovir, highlight the liver-targeting capability of these prodrugs, and the potential benefit of liver targeting on drug efficacy, safety and viral resistance.

Liver-targeted drug delivery using HepDirect prodrugs.

Targeting drugs to specific organs, tissues, or cells is an attractive strategy for enhancing drug efficacy and reducing side effects. Drug carriers such as antibodies, natural and manmade polymers, and labeled liposomes are capable of targeting drugs to blood vessels of individual tissues but often fail to deliver drugs to extravascular sites. An alternative strategy is to use low molecular weight prodrugs that distribute throughout the body but cleave intracellularly to the active drug by an organ-specific enzyme.

Modulation of cardiac remodeling by adenosine: in vitro and in vivo effects.

The increasing incidence of congestive heart failure has stimulated efforts to develop pharmacologic strategies to prevent or reverse the associated process of adverse cardiac remodeling. The possibility of utilizing endogenously generated factors that are capable of inhibiting this process is beginning to be explored. Adenosine, has been described as a retaliatory autacoid with homeostatic activities in the regulation of myocardial blood flow, catecholamine release, and reduction of injury resulting from periods of ischemia.