guanosine-triphosphate and Encephalitis

Antiviral compounds have been developed for use in chemoprophylaxis and chemotherapy of a variety of infections in humans, including those caused by influenza viruses, respiratory syncytial virus, and herpesviruses. The efficacy of several of these compounds has been demonstrated in rigorously controlled trials. Advances in molecular virology have led to the identification of biochemically defined, virus-specific functions that serve as appropriate targets for the future development of antiviral compounds. Clinical investigators and practicing physicians are now confronting questions previously raised with the use of antibacterial antibiotics. These questions concern appropriate routes of administration for antiviral compounds, optimal dosage regimens, risks of long-term prophylaxis, and the emergence of resistant organisms.

Topics: Acyclovir; Adult; Aged; Amantadine; Antiviral Agents; Chickenpox; Clinical Trials as Topic; Cytomegalovirus; Encephalitis; Foscarnet; Guanosine Triphosphate; Herpes Simplex; Herpes Zoster; Herpesviridae Infections; Humans; Infant, Newborn; Infant, Newborn, Diseases; Influenza A virus; Influenza, Human; Phosphonoacetic Acid; Respiratory Tract Infections; Ribavirin; Rimantadine; Vidarabine; Virus Diseases

The creatine kinase/creatine phosphate (CK/CrP) system plays an important role in cellular energy homeostasis. CK isoenzymes, which reversibly generate ATP from CrP, are compartmentalized at cellular sites where energy is produced or utilized. It has been noted that the expression of CK is induced in cells infected by several DNA viruses, implicating a role for cellular energy modulation as an important step for efficient viral replication. A CK substrate analog, 1-carboxymethyl-2-iminoimidazolidine (cyclocreatine; CCr), was tested in vitro for antiviral activity against a variety of herpes viruses and RNA viruses. Several members of the human herpes virus family were found to be sensitive to CCr, including herpes simplex types 1 and 2 (HSV-1 and HSV-2). varicella-zoster virus, and cytomegalovirus. When administered to mice infected vaginally with HSV-2, CCr significantly reduced mortality, reduced vaginal lesion scores, and lowered the titers of recoverable virus. This treatment combined with acyclovir appeared to enhance the antiviral effects of acyclovir. In a second model, mice infected intraperitoneally with HSV-2 and treated with CCr showed a significant increase in survival compared to placebo. We conclude that CCr is the first example of a new class of antiviral compounds that target the CK/CrP system.

Topics: Acyclovir; Animals; Creatinine; Disease Models, Animal; Drug Resistance, Microbial; Drug Therapy, Combination; Encephalitis; Female; Guanosine Triphosphate; Herpes Genitalis; Herpesviridae; Herpesviridae Infections; Humans; Mice; Microbial Sensitivity Tests; RNA Viruses; Survival Rate; Virus Replication