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Current
Pharmaceutical Analysis
ISSN: 1573-4129
Current Pharmaceutical
Analysis
Volume 1, Number 1, January 2005
Contents
Editorial Pp.1-1
Atta-ur-Rahman
[Editorial
In PDF]
Critical Review of Development, Validation, and
Transfer for High Throughput Bioanalytical LC-MS/MS Methods
Pp.3-14
Shaolian Zhou, Qi Song, Yong Tang and Weng Naidong
[Abstract] [Full
text article]
Analysis of the L-Arginine/Nitric Oxide Pathway:
The Unique Role of Mass Spectrometry Pp.15-30
Dimitrios Tsikas
[Abstract] [Full
text article]
Improvement of Peptides Identification in Proteomics
with the Use of New Analytical and Bioinformatic Strategies
Pp.31-40
Tomasz Baczek
[Abstract] [Full
text article]
Physicochemical Profiling by Capillary Electrophoresis
Pp.41-56
Zhongjiang Jia
[Abstract] [Full
text article]
Fluorescent Chiral Derivatization Reagents Possessing
Benzofurazan Structure for the Resolution of Optical Isomers
in HPLC: The Synthesis, Characteristics and Application Pp.57-64
Toshimasa Toyooka
[Abstract]
[Full text article]
Recent Advances in Solid-Phase Microextraction
and Related Techniques for Pharmaceutical and Biomedical Analysis
Pp.65-84
Hiroyuki Kataoka
[Abstract] [Full
text article]
Pharmaceutical and Histopathological Analyses
of the Developing Mechanism of Severe Allergic Conjunctival
Diseases Using Experimental Animal Models: Roles of Systemic
and Local Cytokines Pp.85-91
Atsuki Fukushima
[Abstract] [Full
text article]
The Antagonists of Endothelin Receptors: Results
and Perspectives Pp.93-108
Alessandro Cosenzi
[Abstract] [Full
text article]
Enantioselective Toxicity and Carcinogenesis Pp.109-125
Imran Ali, Hassan Y. Aboul-Enein and Ashraf Ghanem
[Abstract]
[Full text article]
Abstracts
[Back to top]
Editorial
Atta-ur-Rahman
[Editorial
In PDF]
This inaugural issue of “Current Pharmaceutical Analysis”
presents comprehensive reviews written by eminent experts
on a number of important topics including in high-throughput
bioanalytical LC-MS/MS methods, identification techniques
in proteomics using new analytical and bioinformatic strategies,
solidphase microextraction techniques, fluorescent chiral
derivatisation reagents, role of cytokines in pharmaceutical
and histopathological analysis, and antagonists of endothelin
receptors for drug development and physicochemical profiling
by capillary electrophoresis.
It is hoped that “Current Pharmaceutical Analysis”
will soon become an indispensable journal for researchers
in this field.
[Back to top]
Critical Review of Development, Validation, and Transfer
for High Throughput Bioanalytical LC-MS/MS Methods
Shaolian Zhou, Qi Song, Yong Tang and Weng Naidong
[Full text
article]
Swift growth in the use of LC-MS/MS for the analysis of drugs
in biological matrices has been compelled by the need for
timely and high-quality data at many stages in drug discovery
and development process: from high throughput screening of
drug candidates and rapid data generation for pre-clinical
studies to almost 'real-time' analysis of clinical samples.
Prompt and rational method development, validation, and transfer
play a pivotal role in achieving the goals of "faster,
better, and cheaper" for pharmacokinetic studies since
this could easily account for more than 50% of the time and
labor resources for a moderate-sized project. Strategy for
rational method development, validation and transfer has been
largely kept as institutional knowledge but rarely appeared
in literature. In this review article, strategies for developing
and validating robust high throughput LC-MS/MS methods will
be critically reviewed and discussed. Automated sample preparation,
fast chromatography, minimization of matrix effects, and strategy
of narrowing the gap between validation and incurred sample
analysis are just a few topics covered in this review. Other
interesting approaches for improving method efficiency and
ruggedness such as direct injection SPE and liquid/liquid
extracts as well as multiplexing of LC columns will also be
discussed. Potential pitfalls during method development and
validation are pointed out. At the end, the question "how
fast is fast enough and how fast is too fast?" will be
answered after considering all aspects of the method development
and validation.
[Back to top]
Analysis of the L-Arginine/Nitric Oxide Pathway: The Unique
Role of Mass Spectrometry
Dimitrios Tsikas
[Full text
article]
Nitric oxide (NO) is a gaseous radical molecule. In human
organism NO is produced in various cells from Larginine by
the catalytical action of NO synthases (NOS). The L-arginine/NO
pathway powerfully contributes to maintain multiple physiological
functions, including vascular tone, platelet function and
neurotransmission. The metabolic fate of NO is very complex
due to the participation of numerous compounds resulting from
the ability of NO to react practically with any biomolecule
to produce biologically active metabolites (e.g. S-nitrosothiols)
and biologically inactive metabolites (e.g. nitrate). The
concentration in biological fluids and tissues of members
of the L-arginine/NO family is of particular interest, as
it may characterize the status of this pathway in health and
disease as well as to monitor the progress of pharmacological
interventions. Thus, measurement of the NO metabolites nitrate
and nitrite is suitable to assess NO synthesis in vivo.
On the other hand, measurement of the circulating NOS inhibitor
asymmetric dimethylarginine (ADMA) was found to reliably identify
pathological conditions associated with NO-related endothelial
dysfunction. Among the various analytical methods currently
available for the analysis of the L-arginine/NO family, mass
spectrometry (MS)-based approaches such as gas chromatography-mass
spectrometry (e.g. GC-MS/MS) and liquid chromatographymass
spectrometry (e.g. LC-MS/MS) emerged indispensable analytical
tools for the reliable quantitative analysis of the whole
NO family. The present article discusses the currently available
analytical methods especially emphasizing the importance of
the MS technology to the NO field of research.
[Back to top]
Improvement of Peptides Identification in Proteomics with
the Use of New Analytical and Bioinformatic Strategies
Tomasz Baczek
[Full text
article]
Completion of the Human Genome Project enabled a better understanding
of biological functions of organisms. However, these studies
still provide a limited insight into the cellular processes.
Nowadays, a comprehensive analysis and characterization of
all expressed proteins, called proteomics, is the point of
the interest. One of the important issues in proteomics is
finding of analytical and bioinformatic strategies allowing
unambiguous protein identification based on the searching
of the peptide sequence databases. Some examples of bioinformatic
strategies for analytical data processing obtained with the
use of separation techniques and mass spectrometry analysis
are given to demonstrate their usefulness in proteomics. First,
the application of learning algorithms for the reliable evaluation
of MS/MS spectra of peptides, which were separated and processed
with reversed-phase liquid chromatography-tandem mass spectrometry
is discussed. Detailed considerations of the use of artificial
neural networks analysis to classify automatically peptide
MS/MS spectra is provided and analyzed in the aspect of utility
of another learning algorithms. Moreover, the usefulness of
predictions of the reversed-phase liquid chromatography retention
times of peptides in proteomic research is reported. In that
case, quantitative structure-retention relationships (QSRR)
analysis is considered in the view of the other approaches
used in this field. Finally, the contribution of analytical
information from the pI-based separation methods is considered
as the additional source of peptide database matching constraint.
[Back to top]
Physicochemical Profiling by Capillary Electrophoresis
Zhongjiang Jia
[Full text
article]
The physicochemical properties of pharmaceuticals such as
acid dissociation constant (pKa), octanol-water partition
coefficient (logPow), protein binding constant, inclusion
complex constant with cyclodextrin (CD), and selfassociation
are very important in drug design, candidate selection, and
drug delivery. Capillary electrophoresis (CE) is a simple,
versatile, automated, and powerful separation technique and
widely applied in physicochemical profiling for pharmaceuticals.
It has advantages over traditional potentiometric, spectrophotometric,
chromatographic, and other methods, as CE requires very small
amounts of sample and can measure compounds with impurities
and low aqueous solubility. Principles and applications of
CE in profiling various physicochemical properties will be
reviewed.
[Back to top]
Fluorescent Chiral Derivatization Reagents Possessing Benzofurazan
Structure for the Resolution of Optical Isomers in HPLC: The
Synthesis, Characteristics and Application
Toshimasa Toyooka
[Full text
article]
Indirect resolution of chiral molecules, based upon pre-column
derivatization and diastereomer formation using benzofurazan
bearing chiral labeling reagents, by high-performance liquid
chromatography are described in this minireview. The synthesis,
characteristics and application of the fluorescent chiral
derivatization reagents for various functional groups, i.e.
amine (NBD-PyNCS, DBD-PyNCS, DBD-β-Pro,
DBD-hydroxyproline), carboxyl (NBD-APy, DBD-APy, ABD-APy),
carbonyl (NBD-ProCZ, DBD-ProCZ), hydroxyl (NBD-Pro-COCl, DBD-Pro-COCl)
and thiol, etc., are including in the text.
[Back to top]
Recent Advances in Solid-Phase Microextraction and Related
Techniques for Pharmaceutical and Biomedical Analysis
Hiroyuki Kataoka
[Full text
article]
Sample preparation is essential for isolating desired components
from complex matrices and greatly influences their reliable
and accurate analysis. Solid-phase microextraction (SPME)
is a new and effective sample preparation technique. Fibers
and capillary tubes coated with an appropriate stationary
phase are usually used for SPME, but alternative microextraction
techniques, including solid-phase dynamic extraction using
an internal coated needle, microextraction in a packed syringe
and stir-bar-sorptive extraction using a coated magnetic stir
bar, have been developed recently. These techniques, in combination
with gas chromatography (GC), GC-mass spectrometry (GC-MS),
high performance liquid chromatography (HPLC), LC-MS or capillary
electrophoresis, can be used for analysis for complex mixtures.
These microextraction techniques save preparation time, as
well as solvent purchase and disposal costs. This review summarizes
recent advances in SPME and related microextraction techniques
and their applications in pharmaceutical and biomedical analysis.
[Back to top]
Pharmaceutical and Histopathological Analyses of the Developing
Mechanism of Severe Allergic Conjunctival Diseases Using Experimental
Animal Models: Roles of Systemic and Local Cytokines
Atsuki Fukushima
[Full text
article]
Eosinophils are major effector cells for the development
of severe allergic conjunctival diseases (ACD), such as vernal
keratoconjunctivitis. Recruitment of eosinophils into the
conjunctiva is mediated by chemokines and cytokines. In this
review, using an animal model for ACD (experimental immune-mediated
blepharoconjunctivitis, EC), the roles of cytokines for eosinophil
infiltration into the conjunctiva are presented. Using cytokine
knockout mice, importance of endogenous IL-4 for eosinophil
infiltration was confirmed. In contrast, endogenous IFN-γ
was identified to be inhibitory for eosinophil infiltration.
When EC was induced by transfer of in vitro-stimulated
antigen (Ag)-primed lymphocytes, then the addition of IL-4
to the culture augmented eosinophil infiltration. Systemic
administration of IFN-γ
suppressed EC only when IFN-γ
was injected during the induction phase. Concerning cytokines
in the conjunctiva, expression of Th1 cytokines increased
timedependently, whereas that of Th2 cytokines peaked at 12
hours after Ag challenge. In accord with the data, macrophage
infiltration increased in a time-dependent manner, while eosinophil
infiltration peaked at 12 hours. Subconjunctival injection
of IL-4, as well as eotaxin, induced eosinophil infiltration
into the conjunctiva. This IL- 4-induced eosinophil infiltration
was inhibited by co-injection of IFN-γ.
Taken altogether, both systemic and local IL-4 is important
for eosinophil infiltration into the conjunctiva and is regulated
by IFN-γ.
[Back to top]
The Antagonists of Endothelin Receptors: Results and Perspectives
Alessandro Cosenzi
[Full text
article]
In 1988 Yanagisawa described endothelins, a new class of
vasoconstrictor agents produced by endothelial cells. Further
biological effects of these peptides have subsequently been
demonstrated, for example, induction of cell proliferation
and fibrosis. Two types of endothelin receptors have been
described: ETA are responsible for endothelininduced vasoconstriction
whereas ETB induce endothelial cells to release nitric oxide
(NO) and prostacyclin. Many antagonists of endothelin receptors
have been synthesized and evaluated in animal models and in
humans. Satisfactory results have been obtained in animal
models of arterial hypertension, pulmonary hypertension, stroke
and heart failure but clinical trials have failed to demonstrate
that these drugs have a beneficial effect in the treatment
of heart failure and a dose-dependent reversible hepatic toxicity
has been observed. However, the efficacy of bosentan, a mixed
antagonist of endothelin receptors, in the treatment of primary
pulmonary hypertension has been demonstrated and the drug
is now marketed worldwide for this condition. Further studies
are ongoing to evaluate other clinical applications of these
drugs. Recently it has been reported that atrasentan, a selective
ETA antagonist, delayed the progression of hormone-refractory
prostate cancer in humans. This review describes the results
of the studies performed in animals and in humans and their
potential future clinical applications.
[Back to top]
Enantioselective Toxicity and Carcinogenesis
Imran Ali, Hassan Y. Aboul-Enein and Ashraf Ghanem
[Full text
article]
In a non-chiral environment, the enantiomers of a racemate
possess the same physico-chemical properties but in the biological
systems they possess different activities. One of the enantiomers
may be more toxic or carcinogenic, and, therefore, the present
data available on the toxicity and carcinogenesis of the racemic
mixtures of these chiral pollutants are not reliable and need
modification in terms of the enantioselective toxicity and
carcinogenesis. It is essential to explore the enantioselective
toxicity and carcinogenesis due to the different enantiomers
of the chiral pollutants. The knowledge of the stereoselective
metabolisms of the chiral pollutants may be useful for the
treatment of cancer and other diseases. The enantioselective
toxicity and carcinogenesis due to the chiral pesticides,
pollutants and some drugs have been discussed in this review
article.
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