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Query: UMLS:C0004153 (
atherosclerosis
)
77,401
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Amyotrophic Lateral Sclerosis
(
ALS
) is one of the most dangerous and least understood diseases with a pathophysiology that is still largely unknown. In this article we try to provide a pathophysiological explanation of the etiological, pathogenetic, and clinical aspects of
ALS
. After a description of the rather complicated classification of the disease, we continue with an evaluation of its clinical presentation. The bibliography reveals several suspect etiological factors including
atherosclerosis
, inflammation, tumors, cataracts, diabetes mellitus type 2, aging, and degeneration of the nervous system. One of the more intriguing factors involves changes associated with oxidative damage to both neurons and glial cells. It is known that astrocytes support the development of motor neurons. Oxidative damage is known to lead to the expression of stress sensitive genes, proteins, as well as inflammation of glial cells. Chronic inflammation could be a key factor in
ALS
since it has been linked to the death of motor neurons. Pathophysiological research has confirmed the influence of certains proteins on the prognosis of
ALS
.
ALS
is typically a proteinopathy in which proteins aggregate in motoneurons. Additionally, glutamate excitotoxicity has also been linked to
ALS
, with mutated superoxide dismutase (SOD1) having been shown to be responsible for familial
ALS
. As concerns the pathogenesis of
ALS
, we discussed several phenomenon such as increased levels of specific serum compounds, reduced concentrations of myelin, and changes in 5-hydroxytryptamine that could represent key indicators of the pathogenesis, prognosis, and therapy of
ALS
. Concerning
ALS
therapy; treatment with antioxidatives is potentially very important. Exposure to heavy metals is also thought to negatively influence
ALS
. Evidence also suggests that good nutrition is a very important factor in the treatment of
ALS
. From a pharmacological perspective, serotonin treatment appears to be a useful therapeutic agent.
...
PMID:Possible etiology and treatment of amyotrophic lateral sclerosis. 2950 29
Bee venom is a very complex mixture of natural products extracted from honey bee which contains various pharmaceutical properties such as peptides, enzymes, biologically active amines and nonpeptide components. The use of bee venom into the specific points is so called bee venom therapy, which is widely used as a complementary and alternative therapy for 3000 years. A growing number of evidence has demonstrated the anti-inflammation, the anti-apoptosis, the anti-fibrosis and the anti-arthrosclerosis effects of bee venom therapy. With these pharmaceutical characteristics, bee venom therapy has also been used as the therapeutic method in treating rheumatoid arthritis,
amyotrophic lateral sclerosis
, Parkinson's disease, Alzheimer's disease, liver fibrosis,
atherosclerosis
, pain and others. Although widely used, several cases still reported that bee venom therapy might cause some adverse effects, such as local itching or swelling. In this review, we summarize its potential mechanisms, therapeutic applications, and discuss its existing problems.
...
PMID:Bee venom therapy: Potential mechanisms and therapeutic applications. 2965 68
The endoplasmic reticulum (ER) has diverse functions, and especially misfolded protein modification is in the focus of this review paper. With a highly regulatory mechanism, called unfolded protein response (UPR), it protects cells from the accumulation of misfolded proteins. Nevertheless, not only does UPR modify improper proteins, but it also degrades proteins that are unable to recover. Three pathways of UPR, namely PERK, IRE-1, and ATF6, have a significant role in regulating stress-induced physiological responses in cells. The dysregulated UPR may be involved in diseases, such as
atherosclerosis
, heart diseases,
amyotrophic lateral sclerosis
(
ALS
), and cancer. Here, we discuss the relation between UPR and cancer, considering several aspects including survival, dormancy, immunosuppression, angiogenesis, and metastasis of cancer cells. Although several moderate adversities can subject cancer cells to a hostile environment, UPR can ensure their survival. Excessive unfavorable conditions, such as overloading with misfolded proteins and nutrient deprivation, tend to trigger cancer cell death signaling. Regarding dormancy and immunosuppression, cancer cells can survive chemotherapies and acquire drug resistance through dormancy and immunosuppression. Cancer cells can also regulate the downstream of UPR to modulate angiogenesis and promote metastasis. In the end, regulating UPR through different molecular mechanisms may provide promising anticancer treatment options by suppressing cancer proliferation and progression.
...
PMID:Unfolded Protein Response (UPR) in Survival, Dormancy, Immunosuppression, Metastasis, and Treatments of Cancer Cells. 3112 63
d-amino acids, the enantiomeric counterparts of l-amino acids, were long considered to be non-functional or not even present in living organisms. Nowadays, d-amino acids are acknowledged to play important roles in numerous physiological processes in the human body. The most commonly studied link between d-amino acids and human physiology concerns the contribution of d-serine and d-aspartate to neurotransmission. These d-amino acids and several others have also been implicated in regulating innate immunity and gut barrier function. Importantly, the presence of certain d-amino acids in the human body has been linked to several diseases including schizophrenia,
amyotrophic lateral sclerosis
, and age-related disorders such as cataract and
atherosclerosis
. Furthermore, increasing evidence supports a role for d-amino acids in the development, pathophysiology, and treatment of cancer. In this review, we aim to provide an overview of the various sources of d-amino acids, their metabolism, as well as their contribution to physiological processes and diseases in man, with a focus on cancer.
...
PMID:d-amino Acids in Health and Disease: A Focus on Cancer. 3154 25
The ER is a large multifunctional organelle of eukaryotic cells. Malfunction of the ER in various disease states, such as
atherosclerosis
, diabetes, cancer, Alzheimer's and Parkinson's and
amyotrophic lateral sclerosis
, often correlates with alterations in its morphology. The ER exhibits regionally variable membrane morphology that includes, at the extremes, large relatively flat surfaces and interconnected tubular structures highly curved in cross-section. ER morphology is controlled by shaping proteins that associate with membrane lipids. To investigate the role of these lipids, we developed a sea urchin oocyte model, a relatively quiescent cell in which the ER consists mostly of tubules. We altered levels of endogenous diacylglycerol (DAG), phosphatidylethanolamine (PtdEth), and phosphatidylcholine by microinjection of enzymes or lipid delivery by liposomes and evaluated shape changes with 2D and 3D confocal imaging and 3D electron microscopy. Decreases and increases in the levels of lipids such as DAG or PtdEth characterized by negative spontaneous curvature correlated with conversion to sheet structures or tubules, respectively. The effects of endogenous alterations of DAG were reversible upon exogenous delivery of lipids of negative spontaneous curvature. These data suggest that proteins require threshold amounts of such lipids and that localized deficiencies of the lipids could contribute to alterations of ER morphology. The oocyte modeling system should be beneficial to studies directed at understanding requirements of lipid species in interactions leading to alterations of organelle shaping.
...
PMID:Lipid species affect morphology of endoplasmic reticulum: a sea urchin oocyte model of reversible manipulation. 3154 65
Parkinson's disease (PD) is the second most progressive neurodegenerative disorder of the aging population after Alzheimer's disease (AD). Defects in the lysosomal systems and mitochondria have been suspected to cause the pathogenesis of PD. Nevertheless, the pathogenesis of PD remains obscure. Abnormal cholesterol metabolism is linked to numerous disorders, including
atherosclerosis
. The brain contains the highest level of cholesterol in the body and abnormal cholesterol metabolism links also many neurodegenerative disorders such as AD, PD, Huntington's disease (HD), and
amyotrophic lateral sclerosis
(
ALS
). The blood brain barrier effectively prevents uptake of lipoprotein-bound cholesterol from blood circulation. Accordingly, cholesterol level in the brain is independent from that in peripheral tissues. Because cholesterol metabolism in both peripheral tissue and the brain are quite different, cholesterol metabolism associated with neurodegeneration should be examined separately from that in peripheral tissues. Here, we review and compare cholesterol metabolism in the brain and peripheral tissues. Furthermore, the relationship between alterations in cholesterol metabolism and PD pathogenesis is reviewed.
...
PMID:Cholesterol Metabolism in the Brain and Its Association with Parkinson's Disease. 3169 48
p62/SQSTM1, encoded by gene
SQSTM1
, is widely known as an adaptor protein of selective autophagy to promote aggregate-prone proteins for degradation. It is also a stress-induced scaffold protein involved in Nrf2 activation to resist oxidative stress. Multiple domains of p62 interact with several essential pathways implicated in cell differentiation and proliferation, placing p62 at a significant position to mediate cell survival and apoptosis. The p62 protein has been suggested as a potential target in recent years, since its abnormal expression or
SQSTM1
gene mutation is tightly associated with various diseases including cancer such as hepatocellular carcinoma and prostate cancer, neurodegenerative disorders such as Alzheimer's disease and
amyotrophic lateral sclerosis
,
atherosclerosis
, and Paget's disease of bone. In this review, we will discuss the relationship between p62 and these diseases, and we attempt to put forward novel methods for current diagnosis or therapy by regulating the p62 expression level.
...
PMID:p62/SQSTM1, a Central but Unexploited Target: Advances in Its Physiological/Pathogenic Functions and Small Molecular Modulators. 3232 96
Inflammation is a protective reaction activated in response to detrimental stimuli, such as dead cells, irritants or pathogens, by the evolutionarily conserved immune system and is regulated by the host. The inflammasomes are recognized as innate immune system sensors and receptors that manage the activation of caspase-1 and stimulate inflammation response. They have been associated with several inflammatory disorders. The NLRP3 inflammasome is the most well characterized. It is so called because NLRP3 belongs to the family of nucleotide-binding and oligomerization domain-like receptors (NLRs). Recent evidence has greatly improved our understanding of the mechanisms by which the NLRP3 inflammasome is activated. Additionally, increasing data in animal models, supported by human studies, strongly implicate the involvement of the inflammasome in the initiation or progression of disorders with a high impact on public health, such as metabolic pathologies (obesity, type 2 diabetes,
atherosclerosis
), cardiovascular diseases (ischemic and non-ischemic heart disease), inflammatory issues (liver diseases, inflammatory bowel diseases, gut microbiome, rheumatoid arthritis) and neurologic disorders (Parkinson's disease, Alzheimer's disease, multiple sclerosis,
amyotrophic lateral sclerosis
and other neurological disorders), compared to other molecular platforms. This review will provide a focus on the available knowledge about the NLRP3 inflammasome role in these pathologies and describe the balance between the activation of the harmful and beneficial inflammasome so that new therapies can be created for patients with these diseases.
...
PMID:Focus on the Role of NLRP3 Inflammasome in Diseases. 3254 88
The use of animal models is fundamental to furthering our understanding of human disease mechanisms, as well as identifying potential therapeutic targets. Diseases of ageing often involve multiple body systems; however, multi-systemic features are not fully recapitulated in the many of the animal models available. Therefore, combining pre-clinical models to better reflect the multimorbidities observed at the clinical level is critical. This review will highlight some of the key pre-clinical experimental models associated with cardiovascular (
atherosclerosis
, coronary heart disease), cerebrovascular (stroke, vascular dementia), metabolic (obesity, type-2 diabetes mellitus) and neurological (
amyotrophic lateral sclerosis
, frontotemporal dementia, Parkinson's, epilepsy) diseases, and whether these models encompass known multimorbidities. In addition to this, we discuss established pre-clinical models that combine two or more conditions, within the context of dementia.
...
PMID:Preclinical models of disease and multimorbidity with focus upon cardiovascular disease and dementia. 3299 28
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