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Mini-Reviews
in Medicinal Chemistry
ISSN: 1389-5575
Mini-Reviews in Medicinal
Chemistry
Volume 7, Number 2, February 2007
Contents
myo-Inositol Monophosphatase: A Challenging
Target for Mood Stabilising Drugs Pp. 107-113
D.J. Miller and R.K. Allemann
[Abstract]
Breath Analysis: The Approach Towards Clinical
Applications Pp. 115-129
Anton Amann, Patrik Španel and David Smith
[Abstract]
Cytotoxic Thiol Alkylators Pp. 131-139
Hari N. Pati, Umashankar Das, Rajendra K. Sharma and Jonathan
R. Dimmock
[Abstract]
Translational Therapeutic Strategies in Amyotrophic
Lateral Sclerosis Pp. 141-150
Hoon Ryu and Robert J. Ferrante
[Abstract]
Inhibiting Protein-Protein Interactions as an Emerging
Paradigm for Drug Discovery Pp. 151-157
J.A.Gerrard, C.A. Hutton and M.A. Perugini
[Abstract]
Natural and Synthetic Cholera Toxin Antagonists
Pp. 159-170
I.A. Velter, M. Politi, C. Podlipnik and F. Nicotra
[Abstract]
Prevention and Treatment of Alzheimer Disease and
Aging: Antioxidants Pp. 171-180
Quan Liu, Fang Xie, Raj Rolston, Paula I. Moreira, Akihiko
Nunomura, Xiongwei Zhu, Mark A. Smith and George Perry
[Abstract]
Cheminformatics in Anti-Infective Agents Discovery
Pp. 181-189
S. Sardari and M. Dezfulian
[Abstract]
Last Findings on Dual Inhibitors of Abl and Src Tyrosine-Kinases
Pp. 191-201
S. Schenone, F. Manetti and M. Botta
[Abstract]
Development and Current Status of Unconventional Platinum
Anticancer Complexes Pp. 203-211
Adnan Salim Abu–Surrah
[Abstract]
Abstracts
[Back to top]
myo-Inositol Monophosphatase: A Challenging Target
for Mood Stabilising Drugs
D.J. Miller and R.K. Allemann
myo-Inositol monophosphatase has long been a target for
drug discovery. Recent work has given detailed insight into
its mechanism and dynamics plus new activities and some novel
series of inhibitors. The goal of a bio-available inhibitor
for this enzyme, however, remains a major challenge for medicinal
chemistry.
[Back to top]
Breath Analysis: The Approach Towards Clinical
Applications
Anton Amann, Patrik Španel and David Smith
Exhaled breath analysis for clinical diagnosis and therapeutic
monitoring is described with special reference to the techniques
used and the underlying chemistry and physics involved. Brief
outlines are given of the research carried out to date, and
prospects for the future of this potentially valuable non-invasive
technique are indicated.
[Back to top]
Cytotoxic Thiol Alkylators
Hari N. Pati, Umashankar Das, Rajendra K. Sharma and Jonathan
R. Dimmock
Various classes of cytotoxic compounds which alkylate cellular
thiols are described namely α,β-unsaturated
ketones, α
methylene-γ-lactones,
azines of Mannich bases, imexon, isothiocyanates, a benzoacronycine
as well as activation by thiols prior to alkylation. The mechanisms
of action of some of the molecules, such as the formation
of reactive oxygen species, are presented. The cytotoxicity
of a number of drugs can be influenced by modulation of the
concentration of thiols including the observation that potencies
can be increased by thiol activation. The ability of certain
thiol reagents to reverse multidrug resistance as well as
some miscellaneous actions of thiol alkylators are described.
[Back to top]
Translational Therapeutic Strategies in Amyotrophic
Lateral Sclerosis
Hoon Ryu and Robert J. Ferrante
Amyotrophic lateral sclerosis (ALS) is a clinically severe
and fatal neurodegenerative disease characterized by a loss
of both upper and lower motor neurons, resulting in progressive
muscle loss and paralysis. While the exact cause of neuronal
death in ALS remains unknown, it is proposed that multiple
molecular defects trigger motor neuron cell death. These pathophysiological
mechanisms include oxidative stress, mitochondrial impairment,
protein aggregation, glutamate cytotoxicity, transcription
dysfunction, inflammation, and apoptotic cell death. An understanding
of how these potential therapeutic targets interrelate will
provide direction both in the development of a pharmacotherapy
and in the design of clinical trials in ALS. Important issues
related to therapeutic development are the principals that
should be followed in designing and conducting experiments
using genetic animal models and what body of evidence is desirable
to fully inform clinical decision making. In the context of
ALS, we review some of the salient issues related to the use
of genetic models in providing a guide to assessing studies
in translating therapeutic strategies to patients with ALS
and discuss therapeutic targets and pharmacological approaches
to slowing disease progression. As in other neurodegenerative
diseases, the most effective neuroprotection may result from
combined treatment strategies.
[Back to top]
Inhibiting Protein-Protein Interactions as an Emerging
Paradigm for Drug Discovery
J.A.Gerrard, C.A. Hutton and M.A. Perugini
Association of proteins into homo- and hetero-oligomers plays
an important role in a plethora of biological phenomena. Inhibition
of these interactions is increasingly recognized as a valuable
new direction in drug design. In this mini-review we consider
inhibition of protein misfolding and aggregation, molecules
that disrupt enzyme quaternary structure, and signaling inhibitors,
as emerging drugs.
[Back to top]
Natural and Synthetic Cholera Toxin Antagonists
I.A. Velter, M. Politi, C. Podlipnik and F. Nicotra
Cholera Toxin (CT) recognizes the cell membrane through specific
interactions with ganglioside GM1. Recent structural elucidation
of the CT/GM1 complex has allowed the rational design of artificial
receptors for the toxin, which could function as anti-cholera
drugs. The efforts towards the rational design of Cholera
Toxin inhibitors will be presented.
[Back to top]
Prevention and Treatment of Alzheimer Disease and
Aging: Antioxidants
Quan Liu, Fang Xie, Raj Rolston, Paula I. Moreira, Akihiko
Nunomura, Xiongwei Zhu, Mark A. Smith and George Perry
There is considerable evidence showing that oxidative damage
is one of the earliest neuronal and pathological changes of
Alzheimer disease and many, if not all, of the etiological
and pathological causes of the disease are related, directly
or indirectly, to free radical production and oxidative damage.
Here we summarize the current body of knowledge suggestive
that oxidative damage is, if not the key factor, certainly
a major factor in Alzheimer disease. As such, therapeutic
modalities encompassing antioxidants may be an effective approach
to the treatment of neurodegenerative diseases and delay the
aging process.
[Back to top]
Cheminformatics in Anti-Infective Agents Discovery
S. Sardari and M. Dezfulian
The existing chemical data such as those created by high throughput
screening (HTS), structure-activity relationship (SAR) studies
are converted into information as a result of storage and
registration. Accessibility, manipulation, and data mining
of such information make up the knowledge for drug development.
Cheminformatics, exploiting the combination of chemical structural
knowledge, biological screening, and data mining approaches
is used to guide drug discovery and development and would
assist by integrating complex series of rational selection
of designed compounds with drug-like properties, building
smarter focused libraries. This paper presents cheminformatics
approaches and tools for designing and data mining of chemical
databases and information. Many examples of success in lead
identification and optimization in the area of anti-infective
therapy have been discussed.
[Back to top]
Last Findings on Dual Inhibitors of Abl and Src Tyrosine-Kinases
S. Schenone, F. Manetti and M. Botta
Chronic myelogenous leukemia (CML) is a myeloproliferative
disease characterized by the presence of the Philadelphia
chromosome that expresses the constitutively activated tyrosine
kinase Bcr-Abl; this enzyme causes hyperproliferation of the
stem cells and the consequent pathology of the disease. Targeted
inhibitors of Bcr-Abl have antiproliferative effects on the
leukemic cells and induce apoptosis, favouring a regression
of the CML chronic phase, but in the successive blast crisis
phase cancer cells frequently develop resistance to Bcr-Abl
inhibitors. Src is a family of non-receptor tyrosine kinases,
fundamental for cell development, growth, replication, adhesion,
motility and is overexpressed in a wide number of human cancers.
Recently it was demonstrated that Src is increased in hematopoietic
cells expressing Bcr-Abl and is involved in the oncogenic
pathway that causes CML. For this reason and also for the
development of resistance to classical Bcr-Abl inhibitors,
various dual Src/Abl inhibitors have been recently synthesized
and tested. This mini review will be focused on the latest
finding on this matter.
[Back to top]
Development and Current Status of Unconventional Platinum
Anticancer Complexes
Adnan Salim Abu–Surrah
Cisplatin is routinely employed for the treatment of testicular,
ovarian cancer and head/neck tumors. Typical doses administrated
to patients are 100 mg/day for up to five days. It is believed
that the mechanism of action appears to be the binding of
cis-Pt(NH3)2 unit to DNA at
two neighboring guanine bases.
In the years following the introduction of cisplatin, the
design of new platinum anticancer drugs concentrated mainly
on direct cisplatin analogies, which sticked to the set of
structure-activity relationships summarized by Clear and Hoeschele
in 1973. Lately, some pioneering strategies towards the synthesis
of novel platinum anticancer drugs based on the improved understanding
of the mechanism of platinum resistance have emerged. Those
are based on either changing the co-ordinated nitrogen ligand
or altering the leaving groups. Other strategies have been
shifted to discover "non classical" drugs that can
act in a way different from cisplatin. Abnormal structures
that violate the empirical structure-activity relationships
of platinum compounds and multinuclear complexes are examples
of these compounds.
Several review articles appeared during recent years dealing
with the synthesis, preclinical screening, and mechanism of
action of platinum-based anticancer drugs. In this review,
the progress in the field of anticancer chemistry based on
unconventional platinum antitumor agents during the last 10
years will be highlighted. Most of the complexes that illustrate
the recent and the previous prominent strategies will be presented.
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