Epigenetic Alterations and Type 2 Diabetes Mellitus
Page: 1-24 (24)
Author: Shalini Singh, Ashwin Kumar Shukla, Kauser Usman and Monisha Banerjee*
DOI: 10.2174/9789815040227122010004
PDF Price: $15
Abstract
Type 2 diabetes mellitus (T2DM) is one of the most challenging public
health issues of the 21st century. T2DM, a complex polygenic metabolic disorder, is
characterized by hyperglycemia and hyperinsulinemia resulting from the interplay of
genetic/epigenetic and environmental factors. Epigenetic alterations present in T2DM
patients and not in normal healthy individuals may give an insight into how
environmental factors contribute to T2DM. Epigenetic mechanisms involve DNA
methylation, histone modification, and gene expression alterations via micro RNAs
(miRNA). These changes lead to glucose intolerance, insulin resistance, β-cell
dysfunction, and ultimately T2DM. Extensive studies based on alterations in gene
expression associated with DNA methylation/histone modifications are required to
elucidate the relationship between vital environmental factors and T2DM progression.
Candidate genes responsible for inter-individual differences in antidiabetic responses
may also undergo epigenetic alterations. Identification and characterization of such
epigenetic biomarkers may help in the prediction of T2DM risk as well as response to
antidiabetic treatment and form an essential part of personalized medicine
Responses to Nutritional Chromium Supplements for Type 2 Diabetes Mellitus
Page: 25-37 (13)
Author: Ramji Dubey* and Pragya Verma
DOI: 10.2174/9789815040227122010005
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Abstract
Based on research, several scientific publications proposed dietary trivalent
chromium as an attractive alternative for the prevention of hyperglycemia in people at
high risk of type 2 diabetes mellitus (T2DM). The objective of the study is to determine
the influence of chromium on the reaction of glucose and insulin in individuals with
type 2 diabetes and healthy subjects. The study was based on several clinical reports of
randomized clinical trials (RCTs). Available RCTs that were issued before December
2020 were routinely looked for in PubMed/Medline, Scopus, Web of Sciences, Google
Scholar, and Cochrane Library. Keywords, such as “chromium” OR “chromium
supplements” OR “chromium picolinate” in combination with “type 2 diabetes” were
also checked in English. The results of these clinical studies support the view that
chromium can improve both insulin and glucose metabolism in patients with T2DM,
especially in the form of dietary supplements (chromium picolinate). However,
insufficient data are available to create a conclusive hypothesis that nutritional
supplements of chromium could be useful for the treatment of T2DM, and thus there is
no need to endorse a general prescription for the management of diabetes using these
supplements. Chromium supplements have minimal usefulness based on the lower
impact of established evidence, and there is no reason for promoting their use for
glycemic control in patients with existing T2DM. Well-designed, high-quality, broad,
and long-term trials are required to improve the current data and ensure the protection
and efficacy of drugs.
Endocrine Role of Osteocalcin in Homeostatic Regulation of Glucose Metabolism
Page: 38-53 (16)
Author: Madhu Gupta*, Md. Arshad and Rahul Gupta
DOI: 10.2174/9789815040227122010006
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Abstract
Osteocalcin, a well-known bone formation marker, is secreted from
osteoblasts and exists in fully carboxylated, partially carboxylated, and completely
uncarboxylated forms. The endocrine involvement of uncarboxylated osteocalcin in
glucose homeostasis has recently been confirmed. It has been demonstrated that double
recessive osteocalcin mutant mice are hyperglycemic, hypoinsulinemic, and have
reduced β cell numbers and insulin resistance. In contrast, leptin (an adipocyte-derived
hormone) indirectly regulates the secretion of insulin in part through inhibition of
osteocalcin conversion to uncarboxylated form via β2 adrenergic receptor signaling in
osteoblasts. Because uncarboxylated osteocalcin is a secretagogue of insulin, which in
turn positively regulates the bone formation, osteocalcin lies at the centre of the
complex mechanism of glucose homeostasis and bone remodeling network.
Effect of Diabetes on Memory
Page: 54-64 (11)
Author: Sanjay Singh, Sukanya Tripathy and Anand Prakash*
DOI: 10.2174/9789815040227122010007
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Abstract
Diabetes is a condition that occurs due to a chronic increase in the blood
sugar level either by no insulin production by beta cells of Langerhans of the pancreas
or no response from body cells against insulin hormone. Although diabetes has serious
complications on health among different kinds of diabetes. Type 2 diabetes mellitus has
a more prominent role in the loss of memory and cognitive impairment. Diabetes exerts
widely known noxious effects on the kidney and blood vessels. Besides these effects, it
also causes damage to the nerve cells and glial cells in the brain that result in impaired
memory. The altered memory formation in patients with diabetes might be due to
Alzheimer’s, stroke, and high blood sugar levels. Among all of the above parameters,
damage to blood vessels is the most common. Although both diabetes and Alzheimer’s
patients share common symptoms, it can be concluded that diabetes might cause an
increased risk in the development of Alzheimer’s Disease. Indeed, our brain has
receptors for insulin that recognize the insulin hormone and thus can regulate the
glucose metabolism and insulin signaling. Any imbalance in the blood sugar level,
either by low or no secretion of insulin hormone or no response to insulin by body
cells, results in the chance of development of memory and cognitive impairment. By
managing the normal blood sugar level, memory loss can be prevented.
Osteoarthritis in Relation to Type 2 Diabetes Mellitus: Prevalence, Etiology, Symptoms, and Molecular Mechanism
Page: 65-80 (16)
Author: Neelam Shivnath, Habiba, Madhu Gupta and Md. Arshad*
DOI: 10.2174/9789815040227122010008
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Abstract
Type II diabetes mellitus (T2DM) and osteoarthritis (OA) are chronic
diseases that exhibit a strong relationship with age and obesity, and their co-existence
tends to be accompanied by more altered disease conditions. With the increase in
precision medicine, understanding the effect of common co-morbidities, such as
diabetes, should result in improved management of OA. A higher prevalence of OA has
been reported among patients with metabolic syndrome and diabetes mellitus (DM) and
is considered an independent predictor for OA. The review of the literature suggests
that DM may accelerate the symptoms, severity, and risk associated with joint
replacement. Also, clinical and laboratory studies have suggested that there is an
involvement of biochemical and biomechanical changes in articular cartilage in DM.
Thus, the molecular mechanism that is activated in a diabetes-like environment that
may contribute to OA could be characterized. Diabetes-influenced mechanism may
provide knowledge on disease etiopathology and an improved understanding of the
biological underpinning of disease for more specific therapeutic OA outcomes.
Infection of Novel Coronavirus in Patients with DiabetesMellitus
Page: 81-93 (13)
Author: Sukanya Tripathy, Sanjay Singh, Durgesh Dubey, Monisha Banerjee, Dinesh Raj Modi and Anand Prakash*
DOI: 10.2174/9789815040227122010009
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Abstract
According to the preliminary research, coronavirus disease 2019 (COVID19) has been found to be more severe in patients with diabetes mellitus. Furthermore,
COVID-19 might also lead to hyperglycaemia. Along with other risk factors, high
blood glucose may also affect immune and inflammatory responses, thus inclining
patients to severe COVID-19 witha much higher mortality rate. Angiotensin-converting
enzyme 2 (ACE2) receptors are the common entry point for SARS-CoV-2. Recent
findings suggest that dipeptidyl peptidase 4 (DPP4) can also act as a binding and entry
target. Glucose-lowering agents and anti-viral treatments can alter the risk, but there
exist limitations to their use, and its possible interactions with COVID-19 treatments
should be carefully assessed. TMPRSS2 and Neuropilin-1, the key components that
facilitate SARS-CoV-2 infection, are also the potential targets forthe treatment of
COVID-19. Finally, severe acute respiratory syndrome coronavirus 2 infections might
represent a worsening factor for people with diabetes, as it can precipitate acute
metabolic complications through direct negative effects on cell function. Thus, this
chapter deals with the treatment options of diabetes and COVID-19. Most of these
conclusions are preliminary, and further investigation of the optimal management in
patients with diabetes mellitus is warranted.
Role of an Anti-Inflammatory Agent in the Management of Type 2 Diabetes Mellitus
Page: 94-101 (8)
Author: Shivangi Singh, Dinesh Raj Modi and Madhukar Saxena*
DOI: 10.2174/9789815040227122010010
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Abstract
Metabolic syndrome is a group of diseases, which include high elevated
blood pressure, increased glucose level, abdominal obesity, and low high-density
lipoprotein cholesterol levels. Clinical implications of metabolic syndrome indicate the
risk of insulin resistance. Convincing data in the literature demonstrate alterations in
the expression of cytokine inflammatory gene (IL-1, IL-6, TNF-a) expression highly
increased and reduced the expression of the anti-inflammatory gene (IL-1Ra, IL-4, IL10, and IL-13) in Type 2 diabetes (T2D). Various physical activities, like weight loss
and exercise, are beneficial for patients with T2D. Many anti-diabetic drugs are
effective against T2D in which liraglutide, sulfonylureas, and salsalate drugs exert an
anti-inflammatory action in obese patients with T2D. They all have a potent antiinflammatory effect due to inhibition of the NF-kB pathway, upregulation of SIRT1
expression, and down-regulation of pro-inflammatory factors, including cytokines
(TNF-α, IL-1β, and IL-6). They mediate a long-lasting effect by epigenetic regulation
of the NF -kB pathway by SIRT1. These 3 drugs, namely liraglutide, sulfonylureas, and
salsalate, are used for glycemic control by T2D patients. Moreover, with the help of
different mechanisms, these three regulate the level of glucose by the inhibition of the
NF-κB pathway.
Role of Antidiabetic Agents which Help Regulate TCF7L2 Variations in Type 2 Diabetes Mellitus
Page: 102-109 (8)
Author: Pooja, Dinesh Raj Modi and Madhukar Saxena*
DOI: 10.2174/9789815040227122010011
PDF Price: $15
Abstract
Type 2 Diabetes Mellitus (T2DM) is the most challenging health issue of the
21st century; it results from a complex interaction between multiple gene and
environmental factors. TCF7L2 encodes a transcription factor that is involved in the
Wnt signaling pathway that regulates gene expression of pro-glucagon. Effective
treatment is needed to properly manage T2DM patients. Currently, 5 major classes of
oral pharmacological agents are available for the treatment of T2DM, like metformin,
sulfonylureas, meglitinides, thiazolidinedione, and alpha-glucosidase inhibitors
Relationship between Type 2 Diabetes Mellitus, PCOD, and Neurological Disorders: Role of Antidiabetic Drugs
Page: 110-122 (13)
Author: Shubhangi Chaturvedi, Dinesh Raj Modi and Madhukar Saxena*
DOI: 10.2174/9789815040227122010012
PDF Price: $15
Abstract
Polycystic ovarian disease (PCOD), Alzheimer's disease (AD), and type 2
diabetes mellitus (T2DM) have strong co-relation with each other, according to the
accumulated evidence. However, many pieces of evidence have suggested that diabetes
is the major risk cause behind PCOD and AD. We have focused on shedding light on
the close association between PCOD, AD, and anti-diabetic drugs. When the family
history of diabetes is studied extensively, it is illustrated that there are known
associations between insulin resistance and development of the PCOD.Studies have
been performed on different individuals with PCOD, both oligomenorrheic and
eumenorrheic women. Irrespective of the criteria of obese and non-obese women, there
is a high prevalence of type 2 diabetes history in their family, hence proving the family
inheritance of the ovarian disorder. While studying the pathophysiology of diabetes, it
is observed that many characteristics of AD are similar to that of T2DM such as
elevated oxidative stress, amyloid-beta (Aβ) production at a high level, cerebrovascular
complication, and dysfunctional insulin signaling. Among the anti-diabetic drugs,
metformin is most commonly used, and it has many useful functions, such as
controlling serum lipid profiles, having positive control over the hemostasis process,
and serving an anti-inflammatory role
Comparison of Different Types of Insulin Available for Type 1 Diabetes Mellitus Treatment
Page: 123-133 (11)
Author: Jai Godheja*
DOI: 10.2174/9789815040227122010013
PDF Price: $15
Abstract
A handful of pharmaceutical companies manufacture different types of
insulin which treat type I diabetes mellitus. Insulin brands are grouped by the onset of
their action and how long their blood glucose-lowering effects last. Insulin analogs
were introduced way back in 1996; since then, there has been a lot of advancement in
their production as well as the mechanism of action. Current insulin therapies more
closely mimic the normal physiologic insulin secretion by the pancreas, which gives a
better-glycosylated haemoglobin level in patients suffering from diabetes. This chapter
focuses on the types of available insulins and their regimens, classification of types of
insulin that are best for different age groups, diet to be followed, principles of dose
adjustment, and a glimpse of insulin pump therapy
Circadian Rhythm Disruption: Special Reference to Type 2 Diabetes Mellitus
Page: 134-145 (12)
Author: Pragya Verma* and Ramji Dubey
DOI: 10.2174/9789815040227122010014
PDF Price: $15
Abstract
We live in a rhythmic world where both internal (in the body) and external
(natural) processes are harmoniously synced to each other to function in a rhythmic
pattern. Whenever this synchronization between the two is disturbed, it creates
misalignment leading to rhythm disruption. In today’s 24x7 society, the majority of
health issues are due to lifestyle disorders that have their genesis in circadian rhythm
disruption. One such lifestyle disorder that has reached the heights equivalent to the
epidemic is Type 2 diabetes mellitus (T2DM). In the current chapter, the role of the
endogenous biological clock (of organ and tissue) in regulating glucose metabolism is
discussed by citing the basal and advanced research done in the related field. Our effort
is to build up a connection between circadian misalignment and its probable effect with
special reference to T2DM. We started with the description of circadian rhythm, overviewing the daily glucose metabolism. We then discussed the pathophysiology of type
2 diabetes mellitus in light of circadian rhythm disruption. Every organ in the human
body has its clock and rhythm, thus it is a complex mechanism involving dysfunction
of pancreatic b-cells, deposition of fat near visceral organs and insulin resistance, etc.
Workstress and schedules have increased the risks of obesity and diabetes. Thus, it
seems the need of the hour to focus on chronopathology and chronomedicine as
alternative treatment strategies to manage and prevent T2DM, which can further,
contribute to the reduction of the risks of metabolic co-morbidities in the human
population.
Type 2 Diabetes Mellitus and its Complications: Pharmacogenetics Based Correlations and Circulating MicroRNA as Biomarkers
Page: 146-153 (8)
Author: Pushpank Vats*
DOI: 10.2174/9789815040227122010015
PDF Price: $15
Abstract
The field of pharmacogenetic is focused on find out the ways in which
genetic variance in an individual affects the efficacy and potent action of drugs,
moreover, in how many ways genetic variance affects the drugs toxicity has also been a
major topic of discussion. Nowadays, pharmacogenomics is clearly focused on the
establishing personalized medication and finding and developing new drugs. Many
approaches have been identified that can play a major role in promoting the concept of
personalized medicine and helping in identifying major genetic variance that can
further work as a biomarker and provide major clinical insights. As it has been known,
the patients of diabetes have been treated with more than one type of drugs that can be
defined as oral antidiabetic drugs (OAD) that also plays major role in curing out the
diabetes associated complications such as hypertension and dyslipidemia. If major
steps should be taken to treat diabetes than only major changes can be made to control
it’s associated complications and if any kind of genetic testing will be created than it
can work as an predictor tool for the disease. Role of, microRNA (miRNA), which is a
class of non-coding RNA, is also known to play a major role incausing chronic
inflammation if it gets dysregulated along with that also causing β-cell degeneration,
followed by insulin resistance.
Introduction
Pharmacological and Molecular Perspectives on Diabetes is a compilation of reviews on clinical and scientific aspects of diabetes mellitus. It presents 11 contributions by eminent scholars that give the reader rational pharmacological and genetic perspectives of the disease and its treatment. The reviews approach diabetes from different angles, and highlight research that has been done to understand some questions about the molecular biology of diabetes in experimental settings. Topics of clinical significance such as the use of different hypoglycemic agents, and diabetic complications in clinical settings are also covered. Topics included in this book are: - Epigenetic alterations and type 2 diabetes mellitus - Responses to nutritional chromium supplements for type 2 diabetes mellitus - Endocrine role of osteocalcin in homeostatic regulation of glucose metabolism - Effect of diabetes on memory - Osteoarthritis in relation to type 2 diabetes mellitus: prevalence, etiology, symptoms and molecular mechanism - Infection of novel coronavirus in patients with diabetes mellitus - Role of an anti-inflammatory agent in the management of type 2 diabetes mellitus - Role of antidiabetic agents which helps regulates TCF7L2 variations in type 2 diabetes mellitus - Relationship between type 2 diabetes mellitus, PCOD and neurological disorders: role of antidiabetic drugs Comparison of different types of insulin available for type 1 diabetes treatment - Circadian rhythm disruption: special reference to type 2 diabetes mellitus - Type 2 diabetes mellitus and its complications: pharmacogenetics based correlations and circulating microRNA as biomarkers Pharmacological and Molecular Perspectives on Diabetes should prove to be of interest to all pharmaceutical and molecular biology scientists who are involved in research in anti-diabetic drug design and discovery, and practicing endocrinologists who wish to keep abreast of recent developments in the field.