Book Volume 3
Preface
Page: ii-ii (1)
Author: Mitesh Kumar Dwivedi, Alwarappan Sankaranarayanan and Sanjay Tiwari
DOI: 10.2174/9789815124781123030002
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Gut Microbiota and Host Immune System in Cancer
Page: 1-40 (40)
Author: Shakti Prasad Pattanayak*, Gaurav Ranjan, Priyashree Sunita and Pritha Bose
DOI: 10.2174/9789815124781123030004
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Abstract
The mammalian gut is inhabited by more than 100 billion symbiotic
microorganisms. The microbial colony residing in the host is recognised as microbiota.
One of the critical functions of microbiota is to prevent the intestine against exogenous
and harmful pathogen colonization mediated by various mechanistic pathways
involving direct competition for limited nutrients and regulation of host immunity.
Cancer accounts for one of the leading causes of mortality arising from multifactorial
abnormalities. The interconnection of microbiota with various pathological conditions
including cancer is recently being researched extensively for analysing tumor
induction, progression, inhibition and diagnosis. The diversified microbial colony
inhabiting the human gut possesses a vast and distinct metabolic repertoire
complementary to the mammalian enzyme activity in the liver as well as gut mucosa
which facilitates processes essential for host digestion. Gut microbiota is often
considered the critical contributor to defining the biochemical profile of diet thus
impacting the health and disease of the hosts. This chapter mainly focuses on
understanding the complex microbial interaction with cancer either negatively or
positively which may help to conceive novel precautionary and therapeutic strategies to
fight cancer.
Mechanism of Probiotic Action in Anticancer Immunity
Page: 41-69 (29)
Author: Mangala Lakshmi Ragavan and Nilanjana Das*
DOI: 10.2174/9789815124781123030005
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Abstract
Gut microbiota plays a significant role in human physiology which includes
metabolism, nutrition uptake and immune responses. The imbalance of gut microbiota
leads to various disorders or diseases like inflammatory bowel disease, infectious
diseases, cancer and obesity. Cancer is one of the major health problems worldwide.
Moreover, colorectal cancer (CRC) is the most common cancer in humans which is
considered the fourth leading health problem worldwide. The role of probiotics in the
regulation of CRC includes enhancement of immune barrier function, intestinal
immune state, inhibition of enzymatic activity, cell proliferation and apoptosis, redox
homeostasis, and modifying the composition of intestinal microbiota. It can be treated
using chemotherapy, radiotherapy, or surgical eradication. However, these treatments
may cause the demolition of the intestinal mucosal barrier system as well as
dysfunction of the immune system in cancer patients. Hence, biotherapeutic drugs are
used along with probiotics and their metabolites viz. polysaccharides, short-chain fatty
acids, and inhibitory compounds like proteins and other substances to treat cancer.
Lactobacillus rhamnosus GG (LGG) is a widely used probiotic strain in oncology.
Also, it has been proven to exert beneficial effects on cancer patients after anticancer
therapy. Therapeutic potential of the gut microbiome in cancer treatment via the
administration of probiotic supplementations is being investigated using several clinical
studies. Probiotic-incorporated biotheraupetic drugs are considered an alternative
medicine for various types of cancer. The effectiveness of biotheraupetic drugs mainly
depends on the dosage of probiotic strain and their exposure time. However, the
mechanism behind the role of probiotics in cancer immunity is unclear so far. The
present work summarizes the action of probiotics in anticancer immunity.
Probiotics Based Anticancer Immunity in Skin Cancer
Page: 70-93 (24)
Author: Engkarat Kingkaew and Somboon Tanasupawat*
DOI: 10.2174/9789815124781123030006
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Abstract
Cancer, a condition caused by unregulated cell proliferation, has elevated the
global mortality rate that was rising on a daily basis. The treatments for cancer have
numerous adverse effects on patients’ lives. To enhance this treatment, probiotics and
their metabolites (postbiotics) play an important role in the prevention and treatment of
cancer. The mechanisms behind probiotic anti-tumor and/or anti-cancer actions are not
yet comprehended. Numerous studies demonstrate that probiotics are useful in cancer
prevention and treatment. The majority of which are involved in balancing microbiota,
producing essential compounds containing beneficial effects and anti-tumor and cancer
activity, preventing pathogen infection, modulating the host immunity, reducing
inflammation, and in alleviating the severity of some risk factors. Few studies advise
that they should not be used, emphasizing the risk of infection to patients. This chapter
provides an overview of skin cancer, skin microbiome, gut microbiome, and its
implications in skin cancer, as well as probiotic and postbiotic therapeutic approaches.
Probiotics-based Anticancer Immunity In Colon Cancer
Page: 94-118 (25)
Author: Sujitra Techo, Engkarat Kingkaew and Somboon Tanasupawat*
DOI: 10.2174/9789815124781123030007
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Abstract
Probiotics are live microorganisms, which confer a health benefit to the host after administering them in adequate amounts. Health benefits of probiotics include antimicrobial activity and gastrointestinal infections, effectiveness against diarrhoea and Helicobacter pylori infection, improvement in lactose metabolism, reduction in serum cholesterol, inflammatory bowel disease, immune system stimulation, antimutagenic properties, and anti-carcinogenic properties. Since probiotics exhibit a positive health impact, many researchers pay attention to the role of probiotics in the enhancement of the immunological response of the host and also in colon cancer prevention and treatment. Probiotic strains, either live or dead cells, belong to the genera Lactobacillus and Bifidobacterium, which are typically evaluated for their immunomodulatory effect on the immune system. These strains can improve the immunological response both in vitro and in vivo. Many mechanisms of probiotics in the prevention and treatment of colon cancer have been proposed. Several studies demonstrate that probiotics and synbiotics exert an anti-carcinogenic effect on colon cancer cells (in vitro) as well as in clinical trials (in vivo). These studies illustrate that probiotics and synbiotics are applied as adjunctive or alternative therapeutic agents for colon cancer management.
Probiotics Based Anticancer Immunity in Colorectal Cancer
Page: 119-142 (24)
Author: Prashant Shankar Giri and Mitesh Kumar Dwivedi*
DOI: 10.2174/9789815124781123030008
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Abstract
Colorectal cancer (CRC) is the third most common cancer, originating in the
colon and rectal region, leading to abnormal growth in the colon or rectal region. The
gut microbiota plays a critical role in the maintenance of gut homeostasis, and
dysbiosis in the gut microbiota has been associated with CRC pathogenesis. Probiotics
can manipulate the gut microbiota, which can be effective in CRC treatment.
Additionally, probiotics, through the modulation of host immune response, inhibition
of tumor growth, reduction of microbial infection, inhibition of cancerogenic
compounds, and regulation of apoptosis, can become a novel therapeutic option for the
prevention and treatment of CRC. Therefore, this chapter mainly focuses on the
mechanisms of probiotics-based anticancer immunity in CRC, so the existing
knowledge could help in developing a safe and effective treatment for CRC.
Probiotics-based Anticancer Immunity in Breast Cancer
Page: 143-161 (19)
Author: Nosheen Masood* and Saima Shakil Malik*
DOI: 10.2174/9789815124781123030009
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Abstract
A growing number of evidence is available in support of the advantageous
role of a balanced intestinal microbiota in the progression and manifestation of
malignant tumors, not only in the gastrointestinal tract but in other distant tissues as
well, with the most potential role in breast carcinoma. Breast cancer involves a
complex interplay of several factors, such as familial history, use of hormonal
replacement therapy, dietary habits, lifestyle, environment, clinical features, genetics
and epigenetics. Recently, a positive correlation between a patient’s breast microbiome
and cancer has beocme a novel potential risk factor. In the present chapter, we tried to
discuss the role of microbiome as a potential breast cancer risk factor and tried to
investigate the literature focussing on the proposed mechanisms behind the interaction
of microbiome, human genetic makeup involved in the onset of breast carcinogenesis
and determining the effect of transformed breast, milk and gut microbiome on the
physiological status of both normal and malignant breast. We also tried to shed light on
the resistance to chemotherapeutic treatment among individuals with altered
microbiomes with an emphasis on the role of the microbiome in developing and
maintaining inflammation, epigenetic alterations and estrogen metabolism.
Interestingly, bacterial species are indispensable modulatory agents of widely used
chemotherapeutic/ immunotherapeutic regiments. But the exact role of commensal
bacteria in immunity, formation of neoplasia and response to treatment needs much
more research because most of the available knowledge is based on animal model
studies and needs its translation to humans which requires great precision and has
various hurdles too. Therefore, we tried to give a comprehensive overview of current
knowledge in terms of breast cancer therapeutics and suggest integrating probiotic
bacteria and/or modulation of the intestinal microbiota to be used as immune adjuvants,
targeting to enhance the effectiveness of conventional anti-tumor treatments and cancer
immunotherapies as well.
Probiotics Based Anticancer Immunity In Stomach Cancer
Page: 162-188 (27)
Author: Shilpi Singh, Bindu Kumari, Sonal Sinha, Gireesh Kumar Singh, Suaib Lqman* and Dhananjay Kumar Singh*
DOI: 10.2174/9789815124781123030010
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Abstract
Stomach cancer is a global health challenge due to its increasing prevalence. The intestinal microbiota of humans plays a vital role in producing short-chain fatty acids, developing resistance towards pathogenic microbes, nutrient absorption, modulation in immunological response, metabolism, synthesis of vitamins, and gut immune system development. Many diseases or disorders, including cancers, obesity, psychiatric illnesses, rheumatoid arthritis, and inflammatory bowel syndrome, are associated with an imbalance of microbiotas. Earlier reports suggest that probiotics via the oral route act as a functional food and suppress cancer development. Further, some probiotics are clinically effective in reducing post-operative inflammation in cancer patients. Probiotics primarily display inhibitory effects against H. pylori infections in the digestive tract. The combination of probiotics with antibiotics has effectively eradicated H. pylori infections. Besides, probiotics reduce the pro-carcinogens metabolism, they also diminish the growth of pathogens and improve the consistency of the intestinal barrier. Moreover, compounds produced by the microorganisms are reported to interact unswervingly with cancer cells and affect their survival. The therapeutic efficacy and adverse side-effects of the strategies used for stomach cancer prevention could be improved by using probiotics either as adjuvant or neo-adjuvant as the safety concern of the commercially used strains has been verified. The underlying mechanism describing microbiota's effect on oncogenic activation, carcinogenic metabolite production, DNA damage, inhibition of tumour immunity, and chronic inflammation induction still needs a more detailed investigation. In addition, doubleblind, placebo-controlled, randomized, and well-designed clinical studies are required to understand the efficacy and mode of action to reduce the death rate and stomach cancer burden. In depth studies are essential to set probiotics as an eccentric strategy for stomach cancer prevention and treatment.
Probiotic-based Anticancer Immunity In Hepato-cellular Carcinoma (liver Cancer)
Page: 189-210 (22)
Author: Firdosh Shah and Mitesh Kumar Dwivedi*
DOI: 10.2174/9789815124781123030011
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Abstract
One of the most dreaded outcomes of chronic liver illness is hepatocellular
carcinoma (HCC), and it is the most prevalent primary liver cancer. The gut-liver axis
has been shown to play a key role in the emergence of chronic liver disorders,
including HCC, in recent experimental and clinical studies. The altered gut microbiota
is becoming well recognised as an important factor in the progression of chronic liver
disorders, such as HCC. Probiotics administration has been proposed as a new, safe and
cost-effective strategy for preventing or treating HCC. Probiotics' ability to bind
carcinogens, regulation of gut microbiota, improvement of intestinal barrier integrity,
and immunomodulation are the mechanisms by which they exert anticancer benefits.
This chapter discusses the alterations in gut microbiota linked to HCC and the
implications of probiotics and prebiotics for anticancer mechanisms towards HCC.
Probiotics-based Anticancer Immunity In Cervical Cancer
Page: 211-235 (25)
Author: Mehran Mahooti, Elahe Abdolalipour, Seyed Mohammad Miri and Amir Ghaemi*
DOI: 10.2174/9789815124781123030012
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Abstract
In the recent past, many investigations have been directed toward finding the possible relationship between probiotic preventive-therapeutic effects and different cancers. Among different cancers, human papillomavirus (HPV)-induced cancer is the third most frequent cancer among women, resulting in being the second cause of death worldwide. Current treatments, such as chemotherapy and radiotherapy, have been shown to have some limitations, and the available effective cervical vaccines are costly, particularly in developing countries. Therefore, the researchers seek alternatives, such as natural components, as a new approach to treating and cure HPVinduced cancer. Among several natural components, probiotics have increasingly gained more attention due to the probiotic-associated immunomodulation and therapeutic efficacy shown in several studies, as well as their lower risk for human health. In this chapter, we have reviewed the association between probiotics and cervical cancer and discussed how probiotics could exert their effects to suppress or even inhibit the growth of cervical tumors, preclinically or clinically. The different aspects of probiotic application have been precisely studied to assess the potential of probiotics in improving or treating HPV-induced cancer. In addition, the effects of probiotics on immune responses have been described.
Probiotics-based Anticancer Immunity In Lung Cancer
Page: 236-261 (26)
Author: Rabinarayan Parhi*, Suryakanta Swain, Suvendu Kumar Sahoo, Sandip Prasad Tiwari and Rajni Yadav
DOI: 10.2174/9789815124781123030013
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Abstract
Among various death-causing diseases, the morbidity and mortality related
to cancer are the highest, with millions of new malignancies added to the tally every
year and predicted to increase at a higher rate by 2030. Lung cancer is continued to be
the leading cause of cancer death worldwide, with a share of 11.6% of all cancers.
Since the start of the millennium, there has been a continuous effort to provide the
benefits of probiotics in the management and treatment of cancer, particularly lung
cancer. Probiotics are defined as “live microorganisms which, when administered in
adequate amounts, confer health benefits on the host”. These include specific strains of
bacteria and fungi. Bacterial strains belonging to Lactobacillus and Bifidobacterium
have demonstrated promising results in the prevention, attenuation, and treatment of
the progression of lung cancer. The present chapter focuses on the types and aetiology
of lung cancer and the role and mechanism of action of probiotics in providing
immunity against lung cancer.
Probiotics-based Anticancer Immunity in Head and Neck Cancer
Page: 262-278 (17)
Author: Shanth Kumar Sushma, Shivaraju Amrutha and Alwarappan Sankaranarayanan*
DOI: 10.2174/9789815124781123030014
PDF Price: $15
Abstract
Every day we are used to hearing about cancer and its effects. Head and
neck cancer is one of the types of cancer which is leading to mortality. Treatment of
cancer is crucial to lead a happy and healthy life. Till today several medical strategies,
such as radiotherapy, chemotherapy, etc., have come forward to eradicate cancer, but
along with these approaches, probiotics are also taking part to dissolve this problem. In
simple words, probiotics are microorganisms that are present in fermented foods like
yogurt, cheese, creams, fermented milk, etc., which, when administered to the host,
provide health benefits. Some familiar probiotics are Lactobacillus bulgaricus, L. casei
and Streptococcus thermophilus, which are involved in cancer treatment. Much
evidence has proven its health benefits. This chapter focuses on how probiotics act on
cancer cells with an introduction to head and neck cancer, thereby triggering our
interest to probe into further research on treating cancer using probiotics.
Subject Index
Page: 279-283 (5)
Author: Mitesh Kumar Dwivedi, Alwarappan Sankaranarayanan and Sanjay Tiwari
DOI: 10.2174/9789815124781123030015
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Introduction
Probiotics have been suggested to be involved in both prevention and treatment of various human cancers. Probiotics in Anticancer Immunity is a set of volumes in the Frontiers in Cancer Immunology series that explains biochemical mechanisms of anticancer immunity exerted by probiotics in various human cancers. It presents edited chapters focused on the evidence of probiotic use against human cancers through several animal and human studies. This volume of Probiotics in Anticancer Immunity consists of 11 chapters. The introductory chapters provide information about the link between gut microbiota and the host immune system in cancer and the general mechanisms of anticancer immunity exerted by probiotics. Subsequent chapters are focused on probiotics' anticancer immunity in specific cancers such as, skin cancer, stomach cancer, breast cancer, lung cancer, head and neck cancer, liver cancer, cervical and colon cancer. Key features - Gives a new dimensions and insight in the role of probiotics in anticancer immunity towards various human cancers - Provides several color figures and tables to clearly explain relevant information - Includes recent information with new insights and references - Meets the needs of basic (pre-clinical) and advanced clinical researchers and postgraduate scholars