Preface
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Author: Ashutosh Kumar Dash and Deepak Kumar
DOI: 10.2174/9789815124330123010001
Chromene and its Importance: Chemistry and Biology
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Author: Nitin Verma*, Parul Sood, Jitender Singh, Niraj Kumar Jha, Mahesh Rachamalla and Kamal Dua
DOI: 10.2174/9789815124330123010003
PDF Price: $15
Abstract
Chromene (benzopyrans) is one of the privileged scaffold molecules that are
widely distributed in natural products and possesses a wide variety of pharmacological
activities such as anticoagulant, antioxidant, anti-inflammatory, anti-spasmolytic,
antitumor, antihepatotoxic, diuretic, estrogenic, antiviral, antifungal, antimicrobial,
anthelminthic, anti-HIV, antitubercular, herbicidal, anticonvulsant and analgesic. Their
low toxicity combined with their broad pharmacological properties has inspired
researchers to obtain new chromenes and derivatives possessing considerable
pharmacological action. The present review article attempts to summarize the natural
source of chromene and its derivatives along with updated knowledge on its biological
activities.
Recent Trends of Chromene Syntheses
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Author: Samarpita Das, Pulkit Asati, Harish K. Indurthi, Ashutosh Kumar Dash and Deepak K. Sharma*
DOI: 10.2174/9789815124330123010004
PDF Price: $15
Abstract
2H/4H-chromenes (2H/4H-Ch) structural scaffolds have been widely
employed in the synthesis of many natural products and medicinal agents. 2H/4H-Ch
have attracted considerable attention due to their various pharmacological activities,
such as anticonvulsant, anticholinesterase, anticancer, anti-tuberculosis, antimicrobial,
and inhibitory activity against monoamine oxidase (MAO), and anti-diabetic activities.
In literature, the synthesis of 4H-chromenes was performed by one-pot Knoevenagel
condensation of resorcinol, aryl aldehydes, and malononitrile in the presence of basic
catalysts. Also, 2H-Ch analogs were performed by the Wittig-Horner-Emmons and
Suzuki-Miyaura cross-coupling reactions. A description of recent advances in the
syntheses of chromenes is presented in this chapter. The strategies for the synthesis of
2H/4H-Ch discussed in this chapter are organocatalysts, organometallic or metal
catalysts, heterogeneous base catalysts, enzymatic catalysts, and green chemistry-based
approaches.
Diversity-Oriented Synthesis of Chromenes
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Author: Atul Kumar, Diksha Rajput, Gowsia Jan and Vellaisamy Sridharan*
DOI: 10.2174/9789815124330123010005
PDF Price: $15
Abstract
Diversity-oriented synthesis (DOS) plays an important role in the
construction of various natural products and the development of diverse small molecules of biological significance. In recent years, numerous diversity-oriented
approaches have been demonstrated to furnish complex structures with molecular
diversity from readily accessible starting materials. This chapter summarizes the recent
diversity-oriented approaches based on metal-free, transition metal-catalyzed, and
organocatalyzed reactions for the synthesis of chromene derivatives.
Role of Chromene in the Cure of Different Kinds of Human Disease
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Author: Dheeraj Bisht*, Aadesh Kumar, Ankit Kumar, Rajeshwar Kamal-Kant Arya, Krittika Mukherjee and Mohmmad Rashid
DOI: 10.2174/9789815124330123010006
PDF Price: $15
Abstract
A variety of chemicals were being used by us for the treatment of human
and animal diseases from the early beginning of civilization. These chemicals may be
from a natural or synthetic source. Here the choice of discussion is being focused on
the chemical name Chromene and its derivatives that have a significant effect on
various health diseases of human beings. Over the past few years, various natural, as
well as synthetic derivatives of chromene, have shown several fascinating features.
These chromene derivatives were being used in the treatment of Alzheimer’s disease
and Chagas disease. These possess antimicrobial and antiviral properties, used as
anticancer agents, showing antileishmanial properties along with antifungal properties.
In this review, we have focused on the importance of chromene and its derivatives for
the betterment of human beings by finding such studies that describe the use of
chromene and derivatives obtained from natural as well as synthetic sources.
Naturally Occurring Chromene Containing Molecules and their Isolation Protocols
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Author: Santosh Kumar Rath, Shweta Ramkar and Preeti K. Suresh*
DOI: 10.2174/9789815124330123010007
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Abstract
Natural products have been used as major sources of therapeutic agents in
drug discovery since the ancient eras. Natural products have been widely studied in the
physical and biological sciences, including nutrition, health, bio-medical, and other
interrelated sciences. Because of their unique chemical diversity and bioactivity, they
have continued to offer templates for the development of novel forms of drugs. In the
field of traditional medicine, natural products have been used for a very long time in
the form of decoctions, medicinal extracts, infusions, or other therapeutic preparations.
Chromene is one of the essential chemical constituents, derived from the conversion of
multiple biosynthetic pathways present in the plant as well as animal kingdoms, which
represents a remarkable group of structurally varied secondary metabolites. The
scaffold is considered an important class of oxygenated heterocyclic compounds as two
forms of 2H/4H-chromene (2H/4H-Ch) with versatile biological profiles. Chromenes
are the basic backbone of various polyphenols, alkaloids, tocopherols, anthocyanins,
etc. Crotin, Crotaramine, Dysoline, Malachromone, Oxalicumones A-C, Khellin,
Baicalin, Diosmin, etc. are some examples of naturally isolated chromene fused
compounds that are reported for the treatment of diverse health ailments. Their unique
structure and varied pharmacological activities may provide new leads for the
discovery of drugs with their action. In recent years, the need to develop effective and
selective methods for the extraction and isolation of new natural products has been
increasingly felt. This chapter presents the extraction, isolation, and characterization
processes of the chromenes by the natural sources, illumination of the structures of
purified chromenes, and their bioactivity.
Chromenes and Nutraceuticals
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Author: Vagish Dwibedi, Sahil Jain, Anuradha Mittal, Arti Devi, Harleen Kaur Walia, Santosh Kumar Rath and Paola Andrea Duran Cuevas*
DOI: 10.2174/9789815124330123010008
PDF Price: $15
Abstract
Nutraceuticals have received tremendous interest in the treatment or
prevention of multiple diseases in modern times. Chromenes (Benzopyran),
phytochemicals that are polyphenolic secondary metabolites, are one of the privileged
scaffolds that occur in various natural products as essential structural components and
also have beneficial nutraceutical properties. Chromenes are more correctly referred to
as ‘nutraceuticals' due to their variety of pharmacological activities in the mammalian
body. A better understanding of their mechanisms and biological activities suggests
their ability as therapeutic agents and also for predicting and monitoring food quality
due to their significance in food organoleptic properties and human health. In this
chapter, the discussion will be on the diverse therapeutic actions of chromenes as well
as the probable mechanisms of action that are responsible for their therapeutic activity.
The origins of these chromenes, their extraction from these sources, and their use as
nutraceutical components in various food items will also be discussed. The
pharmacological relevance of chromenes, which may be added to staple foods to create
various nutraceutical products, will also be discussed. As shall be evident after reading
this chapter, chromenes as pharmacological agents have a wide range of targets. As a
result, medicinal chemistry and quantitative structure-activity relationships should be
used to focus on their specific biological action when developing new congeners of
chromenes to be used as drugs.
Pharmacokinetic Aspects of Chromenes
Page: 151-163 (13)
Author: Abhishek Gour, Ashish Dogra and Utpal Nandi*
DOI: 10.2174/9789815124330123010009
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Abstract
Unfavourable pharmacokinetics is the major hurdle for the new chemical
entity (NCE) to become a drug during the drug discovery and development process.
Early evaluation of absorption, distribution, metabolism, and excretion (ADME)
characteristics for the promising candidates not only speed up the drug development
stages but also lower the attrition rate in clinical phases which can save resource and
time. Furthermore, pharmacokinetic behavior is helpful for a better understanding of
efficacy, toxicity, and safety. The present chapter deals with ADME information on
chromene-based molecules, which have gained significant importance nowadays due to
their wide range of pharmacological actions, including anticancer activities.
Comprehensive ADME data based on the available information on in-vitro and in-vivo
profiles will pave the way towards understanding for discovery and development of
new therapeutics in this scaffold from bench to bedside.
Chromene and its Derivatives in the Treatment of SARS-COV- 2 Virus Infection
Page: 164-189 (26)
Author: Dipti B. Ruikar, Karan Joshi, Rasana Yadav, Gajanan J. Deshmukh, Snehal Manekar and Prashant R. Murumkar*
DOI: 10.2174/9789815124330123010010
PDF Price: $15
Abstract
Coronavirus pandemics are characterizing the 21st century in itself. In 2002-
03, the first coronavirus SARS-CoV caused Severe Acute Respiratory Syndrome
(SARS); in 2012, the Middle East Respiratory Syndrome (MERS-CoV) made its
appearance, and in 2019, a new human beta coronavirus strain, the SARS-CoV-2 led to
COVID-19 pandemic that took over the entire globe under its rollout. The scientific
research and medical challenges to save lives have revealed the biochemistry and
genetic evolution of an important cycle of the new pathogen, which has steered us to
new preventive and therapeutic approaches to treat SARS-CoV-2. Until now, there is a
scant resource of vaccines available, and therefore, it is very challenging to dose huge
mass around the world. Moreover, there are other various difficulties in producing,
distributing, and storing vaccines; the allopathic drug is always a thrust in this situation.
Various in-silico and in-vitro studies have helped to prove that natural molecules
containing chromene have shown their effectiveness in the treatment of SARS-CoV-2.
Pleiotropic activities and the absence of systemic toxicity of natural chromene and its
derivatives represent potential target compounds in clinical trials to enrich the drug
armament against coronavirus infections. In this chapter, efforts are being made to
discuss the recent investigation of the progress of chromenes in treating SARS-COV-2
virus infection and various treatments involving the possible use of poly-substituted
chromene compounds of modern and natural medicines for the treatment of COVID-19.
Chromenes as Anticancer Agents
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Author: Parul Grover, Harmandeep Kaur Gulati, Jasha Momo H. Anál and Debaraj Mukherjee*
DOI: 10.2174/9789815124330123010011
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Abstract
Heterocyclic compounds hold an important place in the realm of medicinal
chemistry due to their vast pharmacological and therapeutic significance. Worldwide,
cancer is the leading cause of death, and developing an appropriate treatment for the
management of cancer is a challenge. Efforts are being made continuously to search for
a suitable medicinal agent to treat cancer. Chromene (benzopyran) is an important
scaffold and is also considered a privileged pharmacophore. This scaffold also appears
as an important structural component in various natural products. The various
substituted and fused chromenes display propitious activity against various types of
cancer. This chapter highlights the latest advancements from the year 2015 to date on
chromene-based molecules that have anticancer activities. A subpart briefing natural
chromenes containing anticancer potential is also incorporated.
Chromene as Antioxidants
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Author: Rajeshwar Kamal Kant Arya*, Arun Kumar, Anchala Guglani, Dheeraj Bisht and Deepak Kumar
DOI: 10.2174/9789815124330123010012
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Abstract
Chromene is a heterocyclic compound that contains oxygen in its ring. It is
widely obtained naturally from both animals and plants, and it is an integral part of
alkaloids, tocopherol, anthocyanins, and flavonoids. The 2-oxo-2H-chromene is called
coumarins, and coumarins have excellent antioxidant potential due to the presence of
the phenol group, more than 1300 coumarins have been identified to date. The
chromene scaffold in coumarins has the structural modification ability that makes it the
structure of choice for medicinal purposes. Various medicines can be synthesized by
using a chromene scaffold e.g. asthma, hypertension, antifungal, and antimicrobial.
Chromene shows a good antioxidant potential that depends on its hydrogen ion releasing capacity and stabilizes hydrogen with the help of a high resonating structure.
The bond length between bonds also enhances the free radical scavenging function. In
this chapter, we have discussed some chromene derivatives and their antioxidant
potential, and the effect of cyclic structure on the antioxidant’s function.
The Implication of Chromene Derivatives in Bioactive Admixtures
Page: 225-234 (10)
Author: Dheeraj Bisht*, Deepak Sati, Rajeshwar Kamal Kant Arya, Amit Kumar Nigam, Monu Kumar Shukla and Deepak Kumar
DOI: 10.2174/9789815124330123010013
PDF Price: $15
Abstract
Chromene is a heterocyclic scaffold and can be obtained from the natural
origin (from different fractions of the plant extracts), synthetic origin as well as mineral
origin. The nucleus of the scaffold possesses the ability to interact with different
biological targets and thus is medicinally active. Chromene derivatives obtained from
different origins are reported to possess pharmacological activities such as antitumor,
antibacterial, anti-inflammatory, antithrombotic, and antipsychotic activities. Many
chromene-based admixtures are reported to possess different bioactivities. Many
derivatives of chromene, such as isomiroestrol, deoxymiroestrol, and miroestrol have
been investigated as phytoestrogens. Along with therapeutic potencies, chromene
glycosides have safety, efficacy, and stability in the form of herbal drugs and
cosmetics. So, the chapter focuses on chromene derivatives, their biological sources,
respective bioactivities, and recent advancements.
Chromene Derivatives as Potassium Channel Openers or Inhibitors
Page: 235-244 (10)
Author: Krittika Mukherjee, Vivek Panwar, Deepak Kumar Jindal, Sandeep Kumar, Isha Dhamija, Deepak Kumar* and Ashutosh Kumar Dash*
DOI: 10.2174/9789815124330123010014
PDF Price: $15
Abstract
This overview depicts the voltage-regulated potassium channel, which is
found in the CNS, and the emerging therapeutic applications of potassium channel
modulators. It also discusses the recent developments in our understanding of the
mechanisms, that control the activity of a series of channels, that are selective for
potassium ions. It has been long recognized that the excitability of cells is mediated by
proteins, which can modulate the ability of potassium ions to travel across the cell
membrane. Going back ten years, it has become increasingly clear that, potassium ion
channels represent an excellent target for novel drug design. Investigating the role of
potassium channels in treating human diseases continues to be a growing field of
research. The ability of potassium channels to regulate membrane potential accords a
central role in varied cellular processes that govern excitability, action potential
characteristics, stimulus secretion coupling, cell volume regulation, and epithelial
electrolyte transport. Attention from medicinal chemists to potassium channels as drug
targets has grown with the realization that a variety of potassium channel openers offer
significant therapeutic opportunities in cardiac, smooth muscle, neuronal, immune, and
secretary systems. Progressive improvements in molecular biology have enabled
regular cloning of potassium channels of interest, and defined families of these
channels have facilitated a comprehensive understanding of their function. Importantly
many families of increasingly selective small molecules have emerged as target
validation and clinical proof of principle. Many reviews have appeared summarizing
the synthesis and therapeutic potential of these channels. The scope of this report is to
make you aware of potassium channel biology, which leads to a more expedient identification of agents for the treatment of CNS disorders, emphasizing developments in
medicinal chemistry based on potassium channels where modulators would have
considerable clinical potential. While every effort has been made to include all relevant
reports in this discussion, any omission is inadvertent and we apologize for the same.
Miscellany of Chromene
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Author: Partha Pratim Dutta, Faruk Alam*, Biplab Kumar Dey and Rajeev K. Tonk
DOI: 10.2174/9789815124330123010015
PDF Price: $15
Abstract
Chromenes (Benzopyran) comprise a major class of pharmacophores widely
distributed in various natural products, synthetic drugs, and therapeutic leads. They
have been able to fascinate scientists due to the diverse pharmacological activities they
possess and the variety of interesting chemical reactions they exhibit. This chapter
critically reviews and highlights the general spectroscopic characteristics of chromenes,
the diversity of naturally available chromenes as well as various strategies and
mechanisms to develop synthetic chromenes. Recent biological application of
chromenes of both natural and synthetic origin is also summarized here.
Subject Index
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Author: Ashutosh Kumar Dash and Deepak Kumar
DOI: 10.2174/9789815124330123010016
Introduction
Chromene is a naturally abundant heterocyclic compound found in alkaloids, tocopherols, terpenes and other compounds. Its derivatives can be used as a scaffold that exhibits pharmacological activity in the human body. Chromene drugs and related bioactive molecules are the prime focus of this reference. It presents 13 thoroughly researched chapters that comprehensively cover all aspects about the molecule. Starting with a detailed introduction to its role and importance in drug discovery, the book goes into the details of chromene structure, synthesis and pharmacology. Readers can gain knowledge of different commercial medicines based on chromene and its pharmacological activity against different diseases. The elaborate topics in the book will help researchers working on chromene based drugs. Key highlights of the book include: - Complete coverage of chromene's role in nature and drug development with references to historical background and current developments - References to commercial and preclinical drugs and patents of interest - Explanation of chromene bioacivity in different diseases (antioxidant, antidiabetic, antinflammatory, antibacterial and antifungal activities, antitumour, immunomodulatory activity) - Explanation of chromene activity against SARS-Cov2