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Current
Pharmaceutical Design
ISSN: 1381-6128
Current Pharmaceutical Design
Volume 14, Number 29, 2008
Contents
Bioactive Secondary Metabolites
as Possible Candidates for Future Pharmaceuticals
Executive Editor: Gordana Stojanovic
Editorial: Pp.
3066
Liverworts-Potential Source of Medicinal Compounds Pp.
3067-3088
Y. Asakawa
[Abstract] [Purchase
Article]
Some Wild-Growing Plant Species from
Serbia and Montenegro as the Potential Sources of Drugs
Pp. 3089-3105
I.S. Aljancic, V.E. Vajs, V.V. Teševic
and S.M. Milosavljevic
[Abstract] [Purchase
Article]
Biological and Pharmacological Activities
of Carvacrol and Carvacrol Bearing Essential Oils Pp.
3106-3119
K.H.C. Baser
[Abstract] [Purchase
Article]
Portuguese Thymbra and Thymus
Species Volatiles: Chemical Composition and Biological
Activities Pp. 3120-3140
A.C. Figueiredo, J.G. Barroso, L.G. Pedro,
L. Salgueiro, M.G. Miguel and M.L. Faleiro
[Abstract] [Purchase
Article]
Mentha L. Species (Lamiaceae)
as Promising Sources of Bioactive Secondary Metabolites
Pp. 3141-3150
N. Mimica-Djukic and B. Božin
[Abstract] [Purchase
Article]
Biological Activities of Yarrow Species
(Achillea spp.) Pp. 3151-3167
E. Nemeth and J. Bernath
[Abstract] [Purchase
Article]
Microbial Polysaccharides and their Derivatives
as Current and Prospective Pharmaceuticals Pp.
3168-3195
A. Šmelcerovic, Z. Kneževic-Jugovic
and Z. Petronijevic
[Abstract] [Purchase
Article]
Antimicrobial and Antioxidant Activity
of Micromeria Bentham Species Pp.
3196-3202
G. Stojanovic and I. Palic
[Abstract] [Purchase
Article]
Abstracts
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Editorial: Bioactive Secondary Metabolites as Possible
Candidates for Future Pharmaceuticals
One can assume that for every illness, which the
nature has put infront of us, there is a possible remedy which
is only waiting to be discovered. A great number of chemists,
biologists, pharmacists, and other scientists believe in this
prospect, and make great endeavor to determine the exact composition,
and pinpoint the principals of biological activity of plant
extracts, as well as to prepare derivatives of the existing
isolated compounds of natural origin with the hope of arriving
at a molecule with enhanced activity.
This issue is dedicated to the composition of essential oils
and other plant extracts, their biological activity, as well
as isolation, characterization and synthetic modification
of the constituents.
The first paper [1] is an excellent review of liverworts constituents
(the structures of more than 150 compounds are presented).
The review of Professor Milosavljevic’ research group
[2] comprises 155 compounds, e.g. sesquiterpene lactones
and flavonoids (Asteraceae), xanthones, secoiridoids and C-glucoflavonoids
(Gentianaceae) and prenylated phloroglucinols (Guttiferae),
as well as some other secondary metabolites, produced by the
above families, which could be of pharmacological interest.
Biological and pharmacological activities as well as possible
in vivo mechanism of carvacrol are discussed by K.
H. C. Baser [3].
Figueiredo and Coworkers [4] outline the taxonomy, ethnobotany,
cell and molecular biology of Portuguese Thymbra and
Thymus species and antibacterial, antifungal and
antioxidant activities of their essential oils and other volatiles-containing
extracts.
Botany, chemistry and activity of Mentha species
with special respect to their significance for the modern
phytotherapy are described by Mimica-Djukic and Božin
[5].
Nemeth and Bernard [6] consider those scientific findings
which confirm the broad spectrum of yarrow species activity.
Structure, origin, biological activities of microbial polysaccharides
and derivatives as well as their application as pharmaceuticals,
are widely discussed by Šmelcerovic and Coworkers [7].
The last paper is a mini review about antimicrobial and antioxidant
activity of various extracts of Micromeria species
[8].
It is my hope that some of the compounds presented in this
issue will become real drugs in the future. At the end, I
would like to thank all the authors for their contributions,
reviewers for their valuable comments and particularly to
the editor-in chief of Current Pharmaceutical Design, professor
William Banks, for providing me the opportunity to be the
editor in this eminent journal.
References
[1] Asakawa Y. Liverworts-potential source of medicinal compounds.
Curr Pharm Des 2008; 14(29): 3067-3088.
[2] Aljancic IS, Vajs VE, Teševic VV, Milosavljevic SM.
Some wild-growing plant species from Serbia and Montenegro
as the potential sources of drugs. Curr Pharm Des 2008; 14(29):
3089-3105.
[3] Baser KHC. Biological and pharmacological activities of
carvacrol and carvacrol bearing essential oils. Curr Pharm
Des 2008; 14(29): 3106-3119.
[4] Figueiredo AC, Barroso JG, Pedro LG, Salgueiro L, Miguel
MG, Faleiro M L. Portuguese Thymbra and Thymus
species volatiles: chemical composition and biological activities.
Curr Pharm Des 2008; 14(29): 3120-3140.
[5] Mimica-Djukic N, Božin B. Mentha L. species
(Lamiaceae) as promising sources of bioactive secondary metabolites.
Curr Pharm Des 2008; 14(29): 3141-3150.
[6] Nemeth E, Bernath J. Biological activities of yarrow species
(Achillea spp.) Curr Pharm Des 2008; 14(29): 3151-3167.
[7] Šmelcerovic A, Kneževic-Jugovic Z, Petronijevic
Z. Microbial polysaccharides and their derivatives as current
and prospective pharmaceuticals. Curr Pharm Des 2008; 14(29):
3168-3195.
[8] Stojanovic G, Palic I. Antimicrobial and antioxidant activity
of Micromeria Bentham species. Curr Pharm Des 2008;
14(29): 3196-3202.
Professor Gordana Stojanovic
Department of Chemistry
Faculty of Science and Mathematics
University of Niš
Višegradska 33, 18000 Niš
Serbia
E-mail: stgocaus@yahoo.com
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Liverworts-Potential Source of Medicinal Compounds
Y. Asakawa
The bryophytes contain the Marchantiophyta (liverworts),
Bryophyta (mosses) and Anthocerotophyta (hornworts) among
which the Marchantiophyta contain cellular oil body and they
produce a number of terpenoids, aromatic compounds and acetogenins,
several of which show interesting biological activity such
as allergenic contact dermatitis, insecticide, insect antifeedant,
cytotoxic, piscicidal, muscle relaxing, plant growth regulatory,
anti-HIV, DNA polymerase β
inhibitory, anti-obesity, neurotrophic, NO production inhibitory,
antimicrobial and antifungal activities. The isolation and
chemical structures of biologically active compounds and their
total synthesis are reviewed.
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Some Wild-Growing Plant Species from Serbia and Montenegro
as the Potential Sources of Drugs
I.S. Aljancic, V.E. Vajs, V.V. Teševic
and S.M. Milosavljevic
The results of phytochemical investigation, over the
last decade, of some wild-growing plant species from Serbia
and Montenegro belonging to the families Asteraceae, Guttiferae
and Gentianaceae are reported. Most of the investigated species
are endemites and the emphasis in this report is on those
exhibiting biological activities that could be regarded as
the potential sources of drugs. This review comprises 154
compounds, e.g. sesquiterpene lactones and flavonoids
(Asteraceae), xanthones, secoiridoids and C-glucoflavonoids
(Gentanaceae) and prenylated phloroglucinols (Guttiferae)
as well as some other secondary metabolites, produced by the
above families, which could be of pharmacological interest.
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Biological and Pharmacological Activities of Carvacrol and
Carvacrol Bearing Essential Oils
K.H.C. Baser
Oregano essential oils obtained from the genera Origanum,
Thymus, Coridothymus, Thymbra,
Satureja and Lippia are rich in carvacrol,
a monoterpenic phenol isomeric with thymol. Turkey is the
biggest exporter of oregano herb and oil to the world markets.
Oregano is mainly used in food, spice and pharmaceutical industries.
Carvacrol is responsible for the biological activities of
oregano. Many diverse activities of carvacrol such as antimicrobial,
antitumor, antimutagenic, antigenotoxic, analgesic, antispasmodic,
antiinflammatory, angiogenic, antiparasitic, antiplatelet,
AChe inhibitory, antielastase, insecticidal, antihepatotoxic
and hepatoprotective activities and uses such as feed additive,
in honeybee breeding and in gastrointestinal ailments have
been shown. This paper highlights these activities and attempts
to explain the possible in vivo mechanism of action
of carvacrol.
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Portuguese Thymbra and Thymus Species Volatiles:
Chemical Composition and Biological Activities
A.C. Figueiredo, J.G. Barroso, L.G. Pedro,
L. Salgueiro, M.G. Miguel and M.L. Faleiro
Thymbra capitata and Thymus species
are commonly known in Portugal as thyme and they are currently
used as culinary herbs, as well as for ornamental, aromatizing
and traditional medicinal purposes. The present work reports
on the state of the art on the information available on the
taxonomy, ethnobotany, cell and molecular biology of the Portuguese
representatives of these genera and on the chemotaxonomy and
antibacterial, antifungal and antioxidant activities of their
essential oils and other volatile-containing extracts.
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Mentha L. Species (Lamiaceae)
as Promising Sources of Bioactive Secondary Metabolites
N. Mimica-Djukic and B. Božin
The use of mint species in traditional and conventional
medicine is mostly due to the presence of two classes of secondary
bimolecules: monoterpenoids in essential oils and different
structural types of phenolic compounds. Essential oils are
known to act as antimicrobial, antispasmodic, carminative,
and antiviral agents. In addition, essential oils of several
mint species have been recently qualified as natural antioxidants.
However, since oil composition is highly variable, the pharmacological
activity strongly depends on certain chemorace. On the contrary,
composition of phenolic constituents is relatively stable
within species. The most important phenolic compounds in Mentha
species are flavonoids. Mints are characterized by the presence
of specific lipophilic flavonoids. Phenolic compounds of mints
are found to poses a wide range of pharmacological activity:
antioxidant, antiulcer, cytoprotective, heptoprotective, cholagogue,
chemopreventive, anti-inflammatory, antidiabetogenic etc.
However, besides healing properties some mint species can
exhibit an adverse effect on human health. Here we report
on botany, chemistry and activity of Mentha species
with special respect to their significance for the modern
phytotherapy.
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Biological Activities of Yarrow Species (Achillea spp.)
E. Nemeth and J. Bernath
The genus Achillea consists of about 140 perennial
herbs native to the Northern hemisphere. Traditional indications
of their use include digestive problems, liver and gall-bladder
conditions, menstrual irregularities, cramps, fever, wound
healing. The Commission E approves its internal use for loss
of appetite and dyspeptic ailments (gastric catarrh, spastic
discomfort), externally it is used in form of sitz bath or
as a compress against skin inflammation, slow healing wounds,
bacterial or fungal infections.
In the last decades, pharmacological studies became intensive,
although human clinical investigations are still rare. Recent
findings have confirmed several traditional uses. The largest
number of data accumulated for antioxidant and anti-inflammatory
effects. There are positive results on the analgesic, antiulcer,
choleretic, hepatoprotective and wound healing activities.
First results on other interesting therapeutical areas–antihypertensive,
antidiabetic, antitumor, antisper-matogenic activities –need
confirmation. Yarrow can be used also as an insect repellent.
Contact dermatitis as adverse effect may be connected to sesquiterpenes.
The diversity and complexity of the effective compounds of
yarrow species explains the broad spectrum of their activity.
According to the literature the pharmacological effects are
mainly due to the essential oil, proazulenes and other sesquiterpene
lactones, dicaffeoylquinic acids and flavonoids. Synergistic
actions of these and other compounds are also supposed. Achillea
species have different chemical and therapeutical values.
Despite of numerous data, correct evaluation of the results
is difficult because of missing generally accepted taxonomical
nomenclature. The used chemical-analytical methods and bio-assays
are utmost diverse, making the comparison complicated. Further
research on the activity is needed using exactly defined plant
material, standardized methods and chemical analysis.
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Microbial Polysaccharides and their Derivatives as Current
and Prospective Pharmaceuticals
A. Šmelcerovic, Z. Kneževic-Jugovic
and Z. Petronijevic
The ability to produce polysaccharides is widely found
among microbial species. The structural diversity of the microbial
polysaccharides (MPS) leads to a wide diversity of their applications.
This review focuses pharmacological properties of MPS and
their derivatives. They have been reported to possess many
biological activities, such as antiviral, antitumor, antimicrobial
and anticoagulant activities. So, the MPS of the type β-1,3-D-glucans,
including curdlan and scleroglucan, show antitumor and antiviral
activity. A number of biological and synthetic sulfated polysaccharides,
including sulfated polysaccharides from marine microalgae,
inhibit viral infections. Many of MPS demonstrate a series
of attractive properties as carrier materials in drug delivery
systems and nonviral gene delivery. Furthermore, MPS have
found an application as wound-healing agents, blood plasma
expanders and vaccines. Some MPS, like chitin, chitosan and
alginate have an unusual combination of biological activities
and physicochemical properties leading to the development
of novel or improved pharmaceuticals. They have become of
a great interest not only as drug and cell carriers but also
as new functional materials of high biological activity, and
recent progress in MPS chemistry is quite noteworthy. This
review also examines the advances in the application of MPS
in the field of tissue engineering.
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Antimicrobial and Antioxidant Activity of Micromeria
Bentham Species
G. Stojanovic and I. Palic
Published papers considering antimicrobial and antioxidant
activity of Micromeria Bentham species were reviewed.
Possible relationships between composition and bioactivity
were discussed.
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