|
Infectious
Disorders - Drug Targets
(Formerly 'Current Drug Targets - Infectious Disorders')
ISSN: 1871-5265
Infectious Disorders
– Drug Targets
Volume 8, Number 2, June 2008
Contents
Introduction
Diabetes Care: Risk Factors, Prediction, Prevention,
and Individualized Treatment PP. 68-69
Olga Golubnitschaja
[Abstract]
Eye Disorders in Diabetes: Potential Drug Targets
Pp. 70-75
T. Josifova, U. Schneider, B. P. Henrich and W. Schrader
[Abstract]
Diabetes Mellitus as a Risk Factor for
Cancer: Stress or Viral Etiology? Pp. 76-87
Melanie Cebioglu, Hans H. Schild and Olga Golubnitschaja
[Abstract]
Prediction of Degeneration of Native and Bioprosthetic
Aortic Valves: Issue-Related Particularities of Diabetes
Mellitus Pp. 88-99
Kristina Yeghiazaryan, Gerhard Bauriedel, Hans H. Schild
and Olga Golubnitschaja
[Abstract]
Circulating Nucleic Acids in Plasma and Serum: Roles
in Diagnosis and Prognosis in Diabetes and Cancer
Pp. 100-108
Peter B. Gahan
[Abstract]
Multiple Drug Resistance Associated with Function
of ABC Transporters in Diabetes Mellitus: Molecular Mechanism
and Clinical Relevance Pp. 109-118
J. Koehn, M. Fountoulakis and K. Krapfenbauer
[Abstract]
New Approaches in Drug Delivery Systems: Application
for Diabetes Treatment Pp. 119-128
Jorge F. J. Coelho, Paula Ferreira and Maria H. Gil
[Abstract]
Application of Gene Therapy in Diabetes Care
Pp. 129-133
Patrick T. Harrison
[Abstract]
Abstracts
[Back to top]
Diabetes Care: Risk Factors, Prediction, Prevention,
and Individualized Treatment
Olga Golubnitschaja
Predictive medicine is a new philosophy in healthcare
and an attractive subject for currently initiated research
activities aimed at a potential application of innovative
biotechnologies in the prediction of human pathologies, a
development of well-timed prevention and individual therapy-planning.
Diabetes care is one of the best examples of an absolute necessity
for well-timed prediction, prevention and personalized treatment.
Diabetes mellitus frequently results in diverse severe
complications, such as retinopathy, nephropathy, silent ischemia,
dementia, and cancer – the cascade of chronic complications
appearing as “domino-effect”. Promising approaches
of differential plasma proteome, detection of circulating
nucleic acids and gene expression profiling in circulating
leukocytes are currently discussed for development of potent
diagnostic, prognostic and therapeutic targets. Minimal invasive
insulin administration approaches and/or improvement of pancreatic
activity in own insulin production is the main goal of novel
drug delivery systems highly desirable for advanced treatment
of diabetic patients with both type 1 and type 2 of the disease.
High potential of an application of novel gene therapy approaches
in diabetes care is expected for such advanced technologies
as gene repair by gene replacement therapies.
[Back to top]
Eye Disorders in Diabetes: Potential Drug Targets
T. Josifova, U. Schneider, B. P. Henrich and W. Schrader
Diabetes Mellitus (DM) is a serious medical problem that
causes long-term systemic complications and considerable associated
morbidity. DM can cause retinopathy (DRP), maculopathy, cataract,
optic neuropathy, defects of eye muscles. DM is a risk factor
for acute infectious conjunctivitis, bacterial keratitis,
herpes virus infections and endophtalmitis. Elevated blood
glucose induces structural, physiological and hormonal changes
which affect retinal capillaries. DRP is recognized by loss
of pericyte function and capillary occlusions together leading
to breakdown of blood-retinal barrier, edematous changes and
proliferation of vessels and fibrous tissue. Depending on
stage of DRP, there are different preferable therapeutic approaches
applied. In the case of ETDRS, in the area of leakage focal
treatment should be performed, while panretinal photocoagulation
is applied towards ischemic areas or beginning proliferations.
Vitreal haemorrhage followed by fibroproliferative changes
or tractional retinal detachment is treated by vitrectomy
alone or in combination with ILM peeling. In pathogenesis
of DRP, Insulin Growth Factor (IGF-1) can play an important
role in production of VEGF (Vascular Endothelial Growth Factor).
Hypoxia can up-regulate VEGF expression levels leading to
pathologic ocular neovascularisation. An application of intravitreal
corticosteroid treatment modulates vascular permeability by
suppressing the production of VEGF, reducing both extracellular
matrix metalloproteinase activity and basic fibroblast growth
factor, decreasing major histocompatibility complex 2 Ag expression
levels, and inhibiting activity of inflammatory cells. Clinical
effects of treatment using intravitreal corticosteroids are
evaluated by reduction of macular thickness and visual improvement.
Intravitreal use of Anti-VEGF drugs, Pegaptanib, Ranibizumab
and Bevacizumab can modify vasoproliferation, trigger macular
edema, and, therefore, influence a prognosis for visual loss.
[Back to top]
Diabetes Mellitus as a Risk Factor for Cancer: Stress
or Viral Etiology?
Melanie Cebioglu, Hans H. Schild and Olga Golubnitschaja
Diabetes mellitus (DM) is a metabolic disorder. Currently
over 230 million patients demonstrate already an epidemic
scale of the disease. It is a lifelong progressive disease
with a high mortality worldwide: every 10 seconds one patient
dies on DM-related consequences. Whereas cardio-vascular complications
are well-known for DM, it is relatively new consideration
that diabetic patients are highly predisposed to cancer. Particularities
of molecular pathomechanisms of cancer in diabetes are currently
largely unclear. Disturbed glucose/insulin homeostasis is
DM-specific stress factor resulting in increased production
of Reactive Oxygen Species (ROS) and oxidative damage to chromosomal
and mitochondrial DNA frequently observed in diabetic patients.
Long-term accumulation of DNA mutations is well-acknowledged
as triggering cancer. DNA-repair is highly energy consuming
process which provokes increased mitochondrial activity. Particularly
dangerous is a provoked activity of damaged mitochondria which
leads to the „vicious circle“ lowing energy supply
and potentiating ROS production. Mitochondrial dysfunction
is the well-acknowledged risk factor for neuro/degenerative
diseases - one of possible pathomechanisms for various complications
developed secondary to diabetes. At the same time, mitochondrial
dysfunction might be implicated in pathomechanisms of diabetes-provoked
cancer. There is a growing body of evidence that DM predisposes
to almost all cancer types with some particular preferences.
Frequently suffering from compromised immune response, diabetic
patients is high-risk group for infectious disorders including
viral infections. In its turn, viral infections are known
to be implicated in cancer pathology. This review considers
both stress and viral infections as possible etiology of cancer
in diabetes.
[Back to top]
Prediction of Degeneration of Native and Bioprosthetic Aortic
Valves: Issue-Related Particularities of Diabetes Mellitus
Kristina Yeghiazaryan, Gerhard Bauriedel, Hans H. Schild
and Olga Golubnitschaja
Degenerative aortic valve stenosis is the leading cause
of heart valve disease in elderly resulting in significant
morbidity and mortality. Although aortic stenosis has been
recognized as a complex inflammatory and well-regulated process,
its exact pathomechanisms are still largely unknown. Assessment
by Echocardiography, Electron Beam Computed Tomography and
Multislice Computed Tomography is useful for monitoring of
disease progression. However, better knowledge of main determinants
is essential to enable both prediction and prevention of the
disease.
It has been suggested that the process of heart valve degeneration
is associated with the risk factors of atherosclerosis and
shares many histological and molecular characteristics. Morphologic,
cellular and sub-cellular examinations of degenerative aortic
valves revealed endothelial derangement, inflammatory infiltrates
of macrophages, T-lymphocytes and foam cells, non-physiologic
lipid / lipoprotein / protein deposits, as well as dramatically
altered extra-cellular matrix composition and expression profiles
of checkpoint- and “tissue remodeling”-genes.
Metabolic disorder - Diabetes mellitus - is considered
to predispose to degenerative valve disease and is associated
with faster degeneration of bioprosthetic valves. Oxidative
stress is implicated in progressive chronic degenerative processes
secondary to diabetes. Moreover, diabetic patients are a high-risk
group for infectious disorders. Increased prevalence of infectious
endocarditis in patients with type 2 Diabetes mellitus
contributes considerably to both acute aortic insufficiency
and chronic progressive degeneration of valvular tissue. Cholesterol
lowering drugs were demonstrated to be able to retard this
progression.
This review considers prognostic factors for prediction of
progressive degenerative processes and novel targets to prevent
calcification of aortic valves.
[Back to top]
Circulating Nucleic Acids in Plasma and Serum: Roles in Diagnosis
and Prognosis in Diabetes and Cancer
Peter B. Gahan
The presence of DNA and RNA circulating in human plasma
and serum is described. The possible sources of the DNA/RNA
in blood, their ability to enter other cells and to express
in the recipient cells are discussed and the relationship
with metastases considered. The possible role(s) of the DNA/RNA
in clinical diagnosis, in monitoring treatment and in prognosis
are considered for diabetes and oncology.
[Back to top]
Multiple Drug Resistance Associated with Function of ABC-Transporters
in Diabetes Mellitus: Molecular Mechanism and Clinical Relevance
J. Koehn, M. Fountoulakis and K. Krapfenbauer
ATP-binding cassette (ABC) transporters are involved
in a variety of physiological processes such as lipid metabolism,
ion homeostasis and immune functions. A large number of these
proteins have been causatively linked to rare and common human
genetic diseases including familial high-density lipoprotein
deficiency, retinopathies, cystic fibrosis, diabetes and cardiomyopathies.
Furthermore, genetic variations in ABC transporter genes and
deregulated expression patterns significantly contribute to
drug resistance in human cancer and pancreatic beta cells
and alter the pharmacokinetic properties of a variety of drugs.
Up-to-date 15 ABC transporters have been identified in human
pancreatic beta cells, however only a few of them are identified
to date as proteins/genes associated with multidrug resistance
(MDR) in diabetes mellitus. Prominent members include the
multidrug resistance protein 1 (MRP1/ABCC1), sulfonylurea
receptor 1 (SUR1/ABCC8), the multi drug transporter TAP2 and
member of the ATP-binding cassette transporter subfamily A
(ABCA1). ABCC8 is a subunit of the pancreatic beta-cell K(ATP)
channel and plays a key role in the regulation of glucose-induced
insulin secretion. Although the physiological role of these
transporters to MDR is not yet fully understood, they play
an important role in the blood-membrane barrier in pancreatic
beta cells. The aim of this article is to provide an overview
and to present few examples of drug treatment in MDR in diabetes
mellitus associated with function of ABC-transporters.
[Back to top]
New Approaches in Drug Delivery Systems: Application for Diabetes
Treatment
Jorge F. J. Coelho, Paula Ferreira and Maria H. Gil
Advanced drug delivery systems present indubitable advantages
for drug administration. During the past three decades, new
approaches for the development of new carriers for this topic
have been suggested. This led to explosion of publication
activity in the area. This article reviews briefly the history
of the topic and focuses on general concepts in the issue.
One of the most crucial properties of advanced delivery systems
is their ability to be well controlled in terms of a carrier
structure which is responsible for an optimal drug release.
Here we describe new polymerization technologies which consider
this particular aspect. A special attention is paid to the
preparation of materials by LRP (Living Radical Polymerization)
and perspectives of its practical application to the treatment
of single diseases.
Due to the epidemic scale of Diabetes mellitus, novel drug
delivery systems play an important role in and are highly
relevant for improved treatment of worldwide permanently growing
sub-population of diabetic patients. Type 1 is the insulin-dependent
diabetes which accounts for 5 till 10 percent of the whole
pool of diabetic cases and currently attracts main attention
in research activity devoted to the development of advanced
drug delivery systems. Minimal invasive insulin administration
approaches and/or improvement of pancreatic activity in own
insulin production is the main goal of novel drug delivery
systems highly desirable for advanced treatment of diabetic
patients with both type 1 and type 2 of the disease.
[Back to top]
Application of Gene Therapy in Diabetes Care
Patrick T. Harrison
Both type I and type II diabetes are common diseases
with no cure. Both are characterised by chronic hyperglycaemia
and can be managed, at least to some extent, by daily proteins
treatments. However, in both cases, administration of the
protein does not always control glucose levels in a physiologically
normal time frame. A variety of different approaches to restore
lost insulin in type 1 diabetes by gene therapy have recently
been described. Strategies to induce production of new β
cells, ameliorate or evade the auto-immune response that leads
to β
cell destruction, or simply delivering a modified insulin
cDNA under the control of glucose-responsive promoters have
all resulted in restoration of euglycaemia in a physiologically
normal time frame in rodent models of diabetes. In terms of
application of gene therapy to type 2 diabetes, delivery of
a single protein using a virus vector can also restore euglycaemia
in vivo. In addition to these advances, new technologies
to permanently modify the genome which could be adapted for
the long-term treatment of diabetes are described.
|
