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Advances in the treatment of HSV-1 infection
As described in our recent
feature, (Click here for access), the anti-infectives market is poised to
experience considerable growth in the next few years, with a forecast market
value that is expected to double in size to more than $44 billion by 2010. The
treatment of the herpes simplex viruses, HSV1 and HSV2 has been targeted by a
number of companies.
Health care professionals estimate between 20- 40% of the adult population
(age 12 and over) experience recurrent facial cold sores (two or more per
year) caused by HSV-1 infection. An estimated 50% of sufferers use OTC
treatments spending hundreds of millions of dollars each year on such products
that offer only limited benefits. A further 47% of individuals use home
remedies or nothing at all. Only 1- 3% will seek doctor-prescribed agents.
Currently, no cure is available for HSV-1 infection. The development of
Acyclovir (Zovirax), a potent, specific and tolerable nucleosidic inhibitor of
the herpes DNA polymerase, was a milestone in the development of antiviral
drugs in the late 1970s. This antiviral became the most prescribed treatment
for herpes infection, taken orally 5 times daily for 5–10 days or applied
topically 5 times daily for 5 days. Although acyclovir represents a trusted,
safe and effective therapy for the treatment of herpes infections the need for
multiple dosing means that the situation is far from optimal. Furthermore
treatment reduces cold sore healing times by only 10-15%, or 12-24 hours. When
acyclovir became a generic drug in the mid-1990s, valacyclovir (Valtrex) and
famciclovir (Famvir) were launched.
In 2002, both Bayer and Boehringer-Ingelheim researchers reported new
thiazolylphenyl inhibitors of HSV helicase-primase. BAY 57-1293, an inhibitor
of this enzyme, was shown to possess potent in vitro anti-herpes activity, was
well-tolerated, significantly reduce time to healing, prevent rebound of
disease after cessation of treatment and, most importantly, reduce frequency
and severity of recurrent disease. Likewise, BILS 179 BS was also reported as
an orally active antiviral in murine models of HSV-1 and HSV-2 disease and
more effective than acyclovir when the treatment frequency was reduced or when
initiation of treatment was delayed up to 65 hours after infection. These
studies validated the use of helicase-primase inhibitors for the treatment of
acute herpes virus infections.
Most recently Boehringer-Ingelheim researchers have published data describing
BILS 45 BS, another helicase-primase inhibitor which is more potent than
acyclovir against wild-type clinical and laboratory HSV-1 strains and also
acyclovir-resistant HSV isolates. Following cutaneous infection of nude mice,
acyclovir-resistant strains of HSV-1 induced significant, reproducible, and
persistent cutaneous lesions that lasted for more than 2 weeks. Oral treatment
with acyclovir not surprisingly failed to affect infection. In contrast, BILS
45 BS at an oral dose of 100 mg/kg/day almost completely abolished cutaneous
lesions mediated by these strains. The 50% effective dose of BILS 45 BS was
approximately 50 mg/kg/day. These data support the potential use of HSV
helicase-primase inhibitors for the treatment of both nucleoside-sensitive and
resistant HSV disease in humans.
Entry date Monday, June 30, 2003
Adapted from Duan et al, Antimicrob Agents Chemother. 2003 Jun;47(6):1798-804.
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