Preface
Page: i-i (1)
Author: Ipek Suntar, Davide Barreca and Luigi Milella
DOI: 10.2174/9789815123043123010001
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Antioxidant Activity Methods
Page: 1-69 (69)
Author: Immacolata Faraone, Daniela Russo, Fabiana Labanca, Ludovica Lela, Maria Ponticelli, Chiara Sinisgalli and Luigi Milella*
DOI: 10.2174/9789815123043123010003
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Abstract
Antioxidants are groups of substances able to prevent and delay the
oxidation of easily oxidizable molecules and avoid free radicals’ formation. In living
organisms, the main free radicals are reactive oxygen species and reactive nitrogen
species. At low levels, they are involved in the regulation of diverse physiological
processes, but an imbalance between free radicals and the ability of the body to
eliminate them results in a pathological condition called oxidative/nitrosative stress.
Oxidative/nitrosative stress causes damage to cellular structures such as lipids, nucleic
acid, and proteins, compromising cellular health and viability and inducing the
development of several diseases. Physiological systems are able to contrast the free
radical excess, through the endogenous enzymatic materials (e.g., uric acid, glutathione
etc.), and via transcription factor activation. The uptake of natural antioxidants can
contribute to prevent cellular damage and exert beneficial effects. Natural antioxidants
are generally derived from plant sources and they play an important role by directly
scavenging free radicals or increasing antioxidant defences. Natural antioxidants have
gained remarkable interest and several methods have been developed for identifying
their antioxidant capacity. This chapter reviews the major in vitro and in vivo assay
procedures for the antioxidant activity estimation describing materials, extract types,
extracts/pure compounds' concentrations, step by step processes and calculations for
each assay. Advantages and limitations, as well as the molecular mechanisms of each
method have been reported.
Antidiabetic Activity Methods
Page: 70-100 (31)
Author: Cigdem Kahraman and Iffet Irem Tatli Cankaya*
DOI: 10.2174/9789815123043123010004
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Abstract
Diabetes mellitus (DM) is a metabolic disease characterized by the
destruction of pancreatic β cells or reduced insulin secretion and action, and is one of
the most common health problems worldwide. Its incidence is increasing at a high rate,
resulting in enormous social costs. Various drugs show their effectiveness by
improving insulin sensitivity, and reducing glucose production in the liver or other
tissues. Several preclinical studies on diabetes-induced in animals using surgical,
pharmacological or genetic methods demonstrated the effectiveness of these drugs. The
anti-diabetic activity of plants has been attributed to the occurrence of primary and
secondary metabolites characterized by many beneficial effects with advantages over
chemical treatments. A number of studies have demonstrated the potential health
benefits of phytocomponents in treating DM by acting on multiple molecular targets.
Therefore, it is important to test in vitro assays. This review includes methods for the
evaluation of preclinical anti-diabetic activities and summarizes the potential of natural
resources to prevent and/or treat diabetes. In addition, the database contains
information including the plant name, useful plant parts, active compounds, and their
mechanisms of action, in which in vitro and in vivo methods were studied.
Anti-inflammatory Activity Methods
Page: 101-126 (26)
Author: Giovanni Enrico Lombardo, Alessandro Maugeri, Caterina Russo, Laura Musumeci, Santa Cirmi* and Michele Navarra*
DOI: 10.2174/9789815123043123010005
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Abstract
The inflammatory process can be unleashed by a wide variety of biological,
chemical, and physical factors, and arises to counteract these dangerous enemies. In
case of failure by the organism to defeat these exogenous stimuli, a chronic
inflammatory status occurs, hence potentially leading to several diseases. Therefore,
anti-inflammatory drugs, from both synthetic and natural sources, represent valuable
allies to fight the phlogistic process. The search for novel candidate drugs is never
ceasing, also from the plant kingdom, known to provide products with generally lesser
or more tolerable side effects than synthetic drugs. Researchers can take advantage of a
wide plethora of in vitro and in vivo methods in order to investigate the anti-inflammatory potential of unknown natural products. Cell cultures (i.e., stimulated
macrophages) offer a fast and highly reproducible first-line screening, while animal
models, thanks to their complexity, grant to achieve a broader and multifactorial view
of the inflammatory process. The underlying mechanism of action of candidate drugs
can also be explored by several cell-free assays, which are crucial to assess the activity
of key enzymes involved in the inflammatory cascade. Here, we report the most widely
employed models for the assessment of the anti-inflammatory potential of natural
products, discussing the overall procedure, and also providing examples of plant drug
screening. Together, these approaches represent the basis for a thorough and proper
investigation of the anti-inflammatory activity of novel candidates.
Antimicrobial Activity Methods
Page: 127-148 (22)
Author: Teresa Gervasi and Giuseppina Mandalari*
DOI: 10.2174/9789815123043123010006
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Abstract
Plant extracts are widely utilized for their antimicrobial effect, alone or in
combination with traditional drugs. However, the current global lack of harmonization
on the assays used to investigate their biological effect makes the result comparison
very challenging. In the present chapter, we highlight the variables used for the
antimicrobial testing, which may affect the end result. The in vitro antimicrobial
methods, including diffusion methods, dilution methods and thin-layer
chromatography-bioautography are reported, together with a range of assays aimed at
evaluating the mechanisms of action of the extract. Furthermore, in vivo test procedures
are evaluated, with a focus on the impact of the differences in the testing animal and
the procedure used.
Cytotoxic Activity Methods
Page: 149-176 (28)
Author: Esra Emerce* and Kevser Taban Akça
DOI: 10.2174/9789815123043123010007
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Abstract
Natural products have formed the basis of traditional medicine systems
throughout human history. Today, drug discovery studies from natural origins continue
rapidly and efficiently with modern methods. Among the many activities, cytotoxic
activity is related to the behaviour of test material on cell viability and cellular growth.
Cytotoxicity methods, used as a screening test or initial test for guiding other activities,
provide useful information for biocompatibility studies for medical devices or
materials, drug discovery and development processes, toxicity evaluation of cosmetics,
research of disease mechanisms and treatments, and determination of chemopreventive
agents. In vitro cytotoxicity analyses have emerged as an alternative to in vivo studies
and have become preferable due to their ease of application, standardization, rapid, low
cost, and compatibility with data from in vivo studies. With cell-based cytotoxicity
studies, basic information about the cytostatic and cytotoxic effects of the tested
substance is obtained. In studies dealing with natural products, the most appropriate
cytotoxic method should be selected according to the properties and chemical
structures of natural compounds, the ultimate goal of the study, cell types, etc.
Although there are many cytotoxicity methods, this chapter is an introductory overview
of the most commonly used assay methods to estimate the cytotoxic activity in natural
products.
Activity Methods for Endometriosis
Page: 177-199 (23)
Author: Murside Ayse Demirel and Ipek Süntar*
DOI: 10.2174/9789815123043123010008
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Abstract
Endometriosis is an estrogen-dependent disease that causes pelvic pain and
reduces fertility by developing inflammatory lesions outside the uterine. Although
many studies have been performed to investigate the etiopathogenesis of endometriosis,
there is still no direct evidence. Endometriosis, a common gynecological disease, often
recurs even if treated. In vivo studies are used to investigate its etiopathogenesis and
potential treatment methods. Hormonal therapy is generally used for endometriosis
cases. This conventional therapy aims to lower estrogen levels in the body, however, it
can be inadequate for the treatment and has numerous negative effects. The urgency of
finding novel and cheap long-term safety therapies for endometriosis is highlighted by
the need to manage it as a chronic disease. Medicinal plants and natural plant-derived
compounds are interesting options for this purpose. Indeed, there is an increasing
interest in using herbal therapy to treat endometriosis. Several studies have been
conducted on natural products to find a drug candidate for the management of the
mentioned problem. Many of these drugs have a pleiotropic action profile, meaning
they block multiple processes involved in endometriosis pathogenesis, including
proliferation, inflammation, reactive oxygen species (ROS) production, and
angiogenesis. As a result, including them in multimodal treatment approaches may help
to improve therapeutic efficiency and reduce adverse effects in future endometriosis
treatments. Several methods have been described for the assessment of the potential
effectiveness of the bioactive agents against endometriosis. In the present chapter, we
aimed to give general information regarding endometriosis, the use of plant products in
the treatment of this disease, and the methods that have been used for the activity
investigation.
Activity Methods for Polycystic Ovary Syndrome
Page: 200-228 (29)
Author: Murside Ayse Demirel, Kevser Taban Akça, Sümeyra Çetinkaya and Ipek Süntar*
DOI: 10.2174/9789815123043123010009
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Abstract
Polycystic ovary syndrome (PCOS) is one of the most common
gynecological disorders among women of reproductive age. The secretion rate and
metabolism of estrogens and androgens are disrupted in patients with PCOS. Patients
have systemic inflammation, hyperinsulinemia, hyperandrogenism, and polycystic
ovaries. Several experimental models have been developed and studied for the
investigation of this disease. These studies aim to explore the pathophysiology of
PCOS and new treatment approaches. Some plant extracts and phytochemicals
obtained from them are shown to be effective against PCOS in literature. In this
chapter, general information about PCOS, plant-based treatment approaches, and
activity methods are explained in detail.
Methods for Studying the Activity of Natural Extracts on Renal Transporters İnvolved in the Regulation of Blood Pressure
Page: 229-244 (16)
Author: Andrea Gerbino* and Monica Carmosino*
DOI: 10.2174/9789815123043123010010
PDF Price: $15
Abstract
Hypertension is one of the leading causes of chronic kidney disease (CKD)
due to the deleterious effects that increased blood pressure (BP) has on kidney
vasculature. Patients with CKD and hypertension often require a combination of
antihypertensive medications to target BP. Several classes of antihypertensive/diuretic
agents may have a role in the treatment of CKD and hypertension. Besides these
conventional therapies, it is extremely useful to identify new natural sources (herbs and
botanicals) of diuretics and their targets in the kidney that can be used alone or in
combination with traditional synthetic drugs. The use of herbal medicine and natural
products to contrast hypertension has increased many-fold over the past decade driven
by documented experimental evidence. However, many nephrologists are unaware of
these potential therapeutic benefits in treating hypertension, mainly for the lack of
knowledge of molecular mechanisms underlying their effects. Indeed, rigorous
preclinical assays are necessary to scientifically validate the utilization of medicinal
plants for the treatment of hypertension. This chapter provides detailed methods to
study the effects of two representative herbal extracts on renal transporters involved in
blood pressure regulation by in vitro, in vivo, and ex vivo approaches. Of note, these
methods can be applied to any herbal extracts.
Activity Methods for Cardiovascular System Diseases
Page: 245-279 (35)
Author: Rosangela Montanaro, Emma Mitidieri, Roberta d’ Emmanuele di Villa Bianca and Vincenzo Brancaleone*
DOI: 10.2174/9789815123043123010011
PDF Price: $15
Abstract
This chapter provides a collection of methods generally used in experimental
pharmacology to test compounds with different activities in the cardiovascular system.
There are many models in vitro and in vivo and we have highlighted those used in the
field of natural compounds research. For the in vitro procedures, the focus was on the
inhibition of enzymes, such as an angiotensin-converting enzyme or nitric oxide
synthase, which plays a pivotal role in maintaining vascular control and overall blood
pressure. Moreover, test procedures on isolated vessels were also considered for
compounds whose activity is exerted on specific targets expressed in the vasculature.
Regarding the in vivo methods, heart failure and hypertension models were highlighted
for their high incidence of overall deaths cause. In particular, we have analyzed models
of heart failure in rats and mice, animals generally used in preclinical studies. In
addition, it also evaluated useful models of hypertension involving mainly rats;
however, in many cases, the procedure could be translated to different animal species.
Activity Methods For Animal Pharmacokinetic and Pharmacodynamic Studies
Page: 280-292 (13)
Author: Rosangela Montanaro, Francesco Maione and Vincenzo Brancaleone*
DOI: 10.2174/9789815123043123010012
PDF Price: $15
Abstract
This chapter provides an overview of the main features that need to be
assessed with respect to the general pharmacology (pharmacokinetics, PK;
pharmacodynamics, PD) of all molecules, including natural compounds. Here, the
attention has been focused on bioavailability, the volume of distribution, and clearance
to describe the physiological processes of absorption/distribution and elimination of
drugs from the body. It is worth pointing out that PD studies always require an in vitro
preliminary approach, not issued here, that needs to be assessed and confirmed in vivo.
Indeed, PD studies aim to the individuation of specific molecular targets, responsible
for an observed pharmacological effect. Thus, the use of animal models as a complex
approach does not allow to dissect the molecular mechanisms of natural compounds
but can confirm their efficacy in vivo. Therefore, specific PD approaches to determine a
specific action by a compound are addressed in the relevant chapters within this book.
Subject Index
Page: 293-297 (5)
Author: Ipek Suntar, Davide Barreca and Luigi Milella
DOI: 10.2174/9789815123043123010013
PDF Price: $15
Introduction
Natural products have dominated our lives since ancient times. Today, they are an inexhaustible source of new medications for disease treatment. The practice of evaluating bioactive compounds extracted from natural sources has also advanced significantly, prompting a need to understand current methods to identify and evaluate them. This book covers basic scientific aspects of preclinical research on natural products for specific conditions and diseases. These include aging, gynecological disorders, inflammatory disorders, renal disorders and cardiovascular disorders. Each of the 10 book chapters give a structured overview on preclinical methods on the etiology of diseases, natural products as the materials for the bioassays, extract types, concentration of the extracts/compounds for in vitro and in vivo assays, preparation of the test materials, application of the test materials, step-by-step methods and related calculations. The book is intended as a quick reference for natural product researchers, pharmacists and postgraduate students in pharmacognosy. Medical doctors working in preclinical research on natural products will also benefit from the information provided.