| Recent
Patents on Anti-Infective Drug Discovery
ISSN: 1574-891X
Recent Patents on Anti-Infective
Drug Discovery
Volume 3, Number 1, January 2008
Contents
Small Molecules for the Activation of Human γδ
T Cell Responses Against Infection Pp. 1-9
Dieter Kabelitz
[Abstract] [Purchase
Article]
Registered and Investigational Drugs for the
Treatment of Methicillin-Resistant Staphylococcus aureus Infection
Pp. 10-33
Angelo Pan, Silvia Lorenzotti and Alessia Zoncada
[Abstract] [Purchase
Article]
Fighting Tuberculosis with Semi-Synthetic Synthetic
and Naturally Occurring Active Pharmaceuticals Pp.
34-44
Abdus Samad, Yasmin Sultana, Md. S. Akhter and Mohammad
Aqil
[Abstract] [Purchase
Article]
Optimal Dosing Design for Antibiotic Therapy in the
Elderly: A Pharmacokinetic and Pharmacodynamic Perspective
Pp. 45-52
Ayman M. Noreddin, Walid El-Khatib and Virginia Haynes
[Abstract] [Purchase
Article]
Intraocular Delivery of Anti-Infective Drugs-Bacterial,
Viral, Fungal and Parasitic Pp. 53-63
Ahmed Sallam, Subash Jayakumar and Susan Lightman
[Abstract] [Purchase
Article]
Treatment of Chronic Hepatitis B in Children Pp.
64-70
Aydan Kansu
[Abstract] [Purchase
Article]
Patent Selections Pp. 70-76
Abstracts
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Article]
Small Molecules for the Activation of Human
γδ
T Cell Responses Against Infection
Dieter Kabelitz
γδ
T lymphocytes contribute to immune defense against infection
through the production of cytokines, chemokines, anti-bacterial
compounds, and killing of infected cells. The major subpopulation
of human peripheral blood γδ
T cells expresses a Vγ9Vδ2
T cell receptor. Vγ9Vδ2
T cells recognize at picomolar concentrations pyrophosphate
molecules generated by bacteria and parasites through the
2-C-methyl-D-erythritol 4-phosphate (also termed 1-deoxy-D-xylulose
5-phosphate) pathway. Pyrophosphates including isopentenyl
pyrophosphate (IPP) generated in mammalian cells through the
alternative mevalonate pathway also activate Vγ9Vδ2
T cells, but require 1,000- to 10,000-fold higher concentrations.
Synthetic compounds have been patented which efficiently activate
Vγ9Vδ2
T cells in vitro and in vivo. In addition,
the mevalonate pathway of IPP synthesis in mammalian cells
can be manipulated by aminobisphosphonates and alkylamines,
giving rise to the development of additional strategies for
the therapeutic activation of anti-infective γδ
T cells. The recent developments in the discovery of new and
selective γδ
T cell-activating compounds open new avenues for cell-based
therapies of infectious diseases.
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Registered and Investigational Drugs for the
Treatment of Methicillin-Resistant Staphylococcus aureus Infection
Angelo Pan, Silvia Lorenzotti and Alessia Zoncada
First isolated in the 1960s methicillin-resistant Staphylococcus
aureus (MRSA) has become a leading hospital acquired
(HA) pathogen, although community acquired isolates (CA-MRSA)
are on the rise, particularly in the USA. Treatment of serious
MRSA infections has been based for many years upon the use
of glycopeptides, i.e. vancomycin and teicoplanin. Other drugs
indicated in particular clinical settings, such as prosthetic
valve endocarditis or osteomyelitis, are rifampin, gentamycin,
fusidic acid, minocycline, co-trimoxazole, clindamycin. Quinolones
and doxycycline may be active on some MRSA isolates, and add
some this important clinical setting. In the last few years
new anti-MRSA drugs have been registered and patented, expanding
therapeutic opportunities, i.e. linezolid, the first oxazolidinone,
available both as oral and parenteral formulation in being
the most widely used new anti-MRSA agent, quinupristin-dalfopristin,
daptomycin, a novel lipopeptide, active on germs both in the
replicating and in the resting phase, and tigecycline, the
first approved glycylcycline. Other drugs from different classes
are in the pipeline and will further enhance in the next few
years our therapeutic armamentarium: three glycopeptides,
i.e. dalbavancin, telavancin, and oritavancin, two broad spectrum
cephalosporins, ceftobiprole and ceftaroline, iclaprim, a
diaminopyrimidine, as well as a carbapenem, CS-023/RO-4908463,
and adjuvant therapies such as the monoclonal antibody tefibazumab.
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Fighting Tuberculosis with Semi-Synthetic Synthetic
and Naturally Occurring Active Pharmaceuticals
Abdus Samad, Yasmin Sultana, Md. S. Akhter and Mohammad
Aqil
Tuberculosis (TB) is a highly infectious disease caused by
several species of mycobacteria. Multi drug resistant strains
of mycobacteria leading to the increase of patient world wide.
There is an urgent need for new effective antimicrobial agent
to replace those currently in use because of highly toxic.
Screening methods available for discovering new chemical entities
active against the resistant strains are detailed. The plant
origin antimicrobial agents are the valuable anti tubercular
drugs. The present review of patent stated several findings
from an extensive literature search of semi synthetic, synthetic
and natural plants that have been assessed for the antimicrobial
activity over 20 years. An attempt has been made to summarize
the information in order to highlight those chemical entities
and plant species which are of worthy for further investigation
as leads to the drug developments. Over 150 chemical entities
of semi synthetic and synthetic and over 350 plant species
from wide range of families containing various chemical classes
of compounds have been cited here which are worthy for the
researchers and the industrialist concerned to tuberculosis.
The present review includes some patents relevant to the treatment
of tuberculosis.
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Optimal Dosing Design for Antibiotic Therapy in the
Elderly: A Pharmacokinetic and Pharmacodynamic Perspective
Ayman M. Noreddin, Walid El-Khatib and Virginia Haynes
As our aged population increases, infections among elderly
residing in long term care facilities will challenge our ability
to maintain an effective battery of antibiotics. In this setting,
we can predict infection by antibiotic resistant organisms
in elderly patients with a history of previous antibiotic
treatment and exposure to resistant organisms from multiple
hospitalizations. The elderly often acquire infections in
tandem with common disease states such as diabetes and heart
disease. Polypharmacy increases risk of synergistic and antagonist
reactions between pharmaceuticals. Elderly patients may be
deficient in their ability to clear drugs from the body due
to declining lung, kidney/bladder, gastrointestinal and circulatory
efficiency. Accumulation of standard antibiotic doses in the
body leads to heightened risk of achieving toxic drug levels
and increases the chances of unfavorable interactions with
other medications. Optimized dosing strategies must be designed
specifically for this population using pharmacodynamic principles
that honor the unique circumstances of the elderly. Rational
and effective dosing strategies based on pharmacodynamic breakpoints
and detailed understanding of the pharmacokinetics of antibiotics
in the elderly further the goal of achieving complete eradication
of an infection in a timely manner, prevent selection of drug
resistant bacteria and minimize toxic effects in elderly patients.
The present article includes information of patents for antibiotic
therapy in the elderly.
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Intraocular Delivery of Anti-Infective Drugs-Bacterial,
Viral, Fungal and Parasitic
Ahmed Sallam, Subash Jayakumar and Susan Lightman
This article reviews the current literature about the use
of intraocular drugs for treatment of bacterial, fungal, viral
and protozoal intraocular infection. This route of administration
has the advantage of delivering antimicrobials directly into
the eye achieving a high therapeutic concentration above the
MIC90 of most pathogens and with minimal systemic side effects.
It is usually well tolerated but carries a small risk of intraocular
complications. Intraocular therapy is now the main therapeutic
approach for treatment of bacterial endophthalmitis and has
an important adjunctive role in the management of endogenous
fungal endophthalmitis and viral retinitis. Intravitreal clindamycin
therapy offers a recent additional strategy to treat ocular
toxoplasmosis in patients who are intolerant or resistant
to systemic treatment.
Current researches is now focusing on new patents as well
as on the use of intraocular lenses that incorporate antibiotics
during cataract surgery and thus provide a sustained high
antibiotic levels in the eye in the immediate postoperative
period, not depending on patient’s compliance.
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Treatment of Chronic Hepatitis B in Children
Aydan Kansu
Chronic hepatitis B in children is mainly asymptomatic,
but they are at life long risk for severe complications. Treatment
is considered to suppress the virus and to prolong the survival
by preventing the progression to cirrhosis and HCC. Therapeutic
options for children are interferon-alpha (IFN-α)
with antiviral, antiproliferative and immuno-modulatory effects
and lamivudine (LAM) which inhibits HBV replication and increases
cellular immune response. IFN-α,
5 MU/m2, thrice weekly for
6 months is used in patients with high ALT levels which is
associated with virologic response rate of 30-40%. Predictors
of response are high ALT levels, low HBVDNA levels and high
histological activity index. The response is sustained in
85%-90% of responders. Adverse events include flu-like syndrome,
bone marrow suppression, hair loss, and psychiatric side effects,
induction of autoimmunity and temporarily supression of weight
gain and growth velocity. LAM, a nucleoside anolog, leads
to a virologic response rate of 20-30% when used for 12 months.
High ALT levels, low HBVDNA levels and high histological activity
index predict better response. Maintenance of HBeAg seroconversion
is 56-80%. Longer courses of treatment with LAM increases
the seroconversion rate but with high mutation rate and viral
resistance. Except for causing mutations, LAM doesn’t
have serious adverse events. Different timing and durations
of combination treatment with IFN and LAM were also evaluated
without any significant superiority over monotherapy. In conclusion,
the best approach for treatment of chronic HBV infection in
children hasn’t been determined yet. Future developments
concerning new drugs and different treatment strategies are
needed.
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