Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
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Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
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Query: UMLS:C1175175 (
SARS
)
19,188
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The origin of acquired
immune disorder
syndrome (AIDS) has been the subject of substantial controversy both in the scientific community and in the popular press. The debate involves the mode of transmission of a simian virus (SIV) to humans. Both major camps in the argument presume that humans are normally free of such viruses and assume that once the simian virus was transmitted, it immediately infected some T-cells and caused the release of toxic agents that killed off bystander (uninfected) T-cells resulting in AIDS. The evolution of the Simian virus (SIV) into a human virus (HIV) is regarded as an artifact. In contrast, a fundamentally different hypothesis has been proposed [Parris GE. Med Hypotheses 2004;62(3):354-7] in which it is presumed that in hyper-endemic areas of malaria (central Africa), all primates (humans and non-human primates) have shared a retrovirus that augments their T-cell response to the malaria parasite. The virus can be called "primate T-cell retrovirus" (PTRV). Over thousands of years the virus has crossed species lines many times (with little effect) and typically adapts to the host quickly. In this model, AIDS is seen to be the result of the development of resistance of the virus (PTRV) to continuous exposure to pro-apoptotic (schizonticidal) aminoquinoline drugs used to prevent malaria. The hypothesis was originally proposed based on biochemical activities of the aminoquinolines (e.g., pamaquine (plasmoquine(TM)), primaquine and chloroquine), but recent publications demonstrated that some of these drugs definitely adversely affect HIV and other viruses and logically would cause them to evolve resistance. Review of the timeline that has been created for the evolution of HIV in humans is also shown to be qualitatively and quantitatively consistent with this hypothesis (and not with either version of the conventional hypothesis).
SARS
and Ebola also fit this pattern.
...
PMID:AIDS: caused by development of resistance to drugs in a non-target intracellular parasite. 1709 75
A dangerous cytokine storm occurs in the
SARS
involving in
immune disorder
, but many aspects of the pathogenetic mechanism remain obscure since its outbreak. To deeply reveal the interaction of host and
SARS
-CoV, based on the basic structural feature of pathogen-associated molecular pattern, we created a new bioinformatics method for searching potential pathogenic molecules and identified a set of
SARS
-CoV specific GU-rich ssRNA fragments with a high-density distribution in the genome. In vitro experiments, the result showed the representative
SARS
-CoV ssRNAs had powerful immunostimulatory activities to induce considerable level of pro-inflammatory cytokine TNF-a, IL-6 and IL-12 release via the TLR7 and TLR8, almost 2-fold higher than the strong stimulatory ssRNA40 that was found previously from other virus. Moreover,
SARS
-CoV ssRNA was able to cause acute lung injury in mice with a high mortality rate in vivo experiment. It suggests that
SARS
-CoV specific GU-rich ssRNA plays a very important role in the cytokine storm associated with a dysregulation of the innate immunity. This study not only presents new evidence about the immunopathologic damage caused by overactive inflammation during the
SARS-CoV infection
, but also provides a useful clue for a new therapeutic strategy.
...
PMID:Extraordinary GU-rich single-strand RNA identified from SARS coronavirus contributes an excessive innate immune response. 2312 77
SARS
-CoV-2 can attack the central nervous system in the early stages of infection. Headache, anosmia, and dysgeusia are common symptoms. Disturbance of consciousness and seizures can occur as complications in case of severe COVID-19. We described the case of a COVID-19 patient admitted for interstitial pneumonia and seizures. MRI showed newly diagnosed demyelinating lesions. High-dose steroid treatment allowed neurological and respiratory recovery. We speculated a delayed immune response induced by
SARS
-CoV-2. The virus may lead to a SIRS-like
immune disorder
or play a role of infective trigger. Prompt invasive treatment should be adopted to avoid hypoxic neurotoxicity and prevent CNS injuries.
...
PMID:SARS-CoV-2 can induce brain and spine demyelinating lesions. 3236 5
SARS
-CoV-2 infection has spread worldwide since it originated in December 2019, in Wuhan, China. The pandemic has largely demonstrated the resilience of the world's health systems and is the greatest health emergency since World War II. There is no single therapeutic approach to the treatment of COVID-19 and the associated
immune disorder
. The lack of randomised clinical trials (RCTs) has led different countries to tackle the disease based on case series, or from results of observational studies with off-label drugs. We as rheumatologists in general, and specifically rheumatology fellows, have been on the front line of the pandemic, modifying our activities and altering our training itinerary. We have attended patients, we have learned about the management of the disease and from our previous experience with drugs for arthritis and giant cell arteritis, we have used these drugs to treat COVID-19.
...
PMID:COVID-19: Overview of Rheumatology Fellows. 3256 30
The COVID-19 pandemic, caused by
severe acute respiratory syndrome
coronavirus 2 (SARS-CoV-2), has highlighted the urgent need to rapidly develop therapeutic strategies for such emerging viruses without effective vaccines or drugs. Here, we report a decoy nanoparticle against COVID-19 through a powerful two-step neutralization approach: virus neutralization in the first step followed by cytokine neutralization in the second step. The nanodecoy, made by fusing cellular membrane nanovesicles derived from human monocytes and genetically engineered cells stably expressing angiotensin converting enzyme II (ACE2) receptors, possesses an antigenic exterior the same as source cells. By competing with host cells for virus binding, these nanodecoys effectively protect host cells from the infection of pseudoviruses and authentic
SARS
-CoV-2. Moreover, relying on abundant cytokine receptors on the surface, the nanodecoys efficiently bind and neutralize inflammatory cytokines including interleukin 6 (IL-6) and granulocyte-macrophage colony-stimulating factor (GM-CSF), and significantly suppress
immune disorder
and lung injury in an acute pneumonia mouse model. Our work presents a simple, safe, and robust antiviral nanotechnology for ongoing COVID-19 and future potential epidemics.
...
PMID:Decoy nanoparticles protect against COVID-19 by concurrently adsorbing viruses and inflammatory cytokines. 3302 17
