Gene/Protein Disease Symptom Drug Enzyme Compound
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The biochemical processes leading to Alzheimer's disease are just now being elucidated. A recent study shows that a peptidyl-prolyl isomerase, Pin1, specifically regulates the degradation of amyloid precursor protein (APP). An alternative model for Pin1 regulation of APP processing is also proposed.
ACS Chem Biol 2006 May 23
PMID:Pin1 flips Alzheimer's switch. 1716 75

S-Nitrosylation, the covalent addition of a nitrogen monoxide group to a cysteine thiol, has been shown to modify the function of a broad spectrum of mammalian, plant, and microbial proteins and thereby to convey the ubiquitous influence of nitric oxide on cellular signal transduction and host defense. Accumulating evidence indicates that dysregulated, diminished, or excessive S-nitrosylation may be implicated in a wide range of pathophysiological conditions. A recent study establishes a functional relationship between inhibitory S-nitrosylation of the redox enzyme protein disulfide isomerase (PDI), defects in regulation of protein folding within the endoplasmic reticulum (ER), and neurodegeneration. Further, an examination of human brains afflicted with Parkinson's or Alzheimer's disease supports a causal role for the S-nitrosylation of PDI and consequent ER stress in these prevalent neurodegenerative disorders.
ACS Chem Biol 2006 Jul 21
PMID:Nitrosative stress in the ER: a new role for S-nitrosylation in neurodegenerative diseases. 1716 72

The formation of amyloid assemblies is associated with major human disorders. Yet no therapeutic agents presently exist to control this process. In a recent paper, a new bacterial system is described that uses a fusion of the Alzheimer's disease beta-amyloid polypeptide to the GFP. The assay detects the formation of small, soluble amyloid intermediates associated with degenerative diseases. This assay allows the researchers to use high-throughput screening methods to find inhibitors of the formation of amyloid assemblies.
ACS Chem Biol 2006 Aug 22
PMID:From green bacteria to human dementia: a novel model for discovering amyloid assembly inhibitors. 1716 24

Aggregation of the Alzheimer's peptide Abeta produces toxic multimeric species that play a key role in the development of Alzheimer's disease. Compounds that inhibit this aggregation may prove useful as therapeutic agents for the prevention or treatment of Alzheimer's disease. Although aggregation inhibitors may already exist in combinatorial libraries, finding these compounds in a cost-effective high-throughput manner poses an enormous challenge. To meet this challenge, we have developed a novel high-throughput screen capable of isolating inhibitors of Abeta aggregation from large libraries of inactive candidates. The screen uses a fusion of Abeta42 to GFP. In the absence of inhibition, the rapid misfolding and aggregation of Abeta42 causes the entire fusion protein to misfold, thereby preventing fluorescence. Compounds that inhibit Abeta42 aggregation enable GFP to fold into its native structure and be identified by the resulting fluorescent signal. By implementing the screen on a pilot library of triazine derivatives, we have identified several putative inhibitors. One of the selected compounds was studied in detail by a series of biochemical and biophysical methods. These studies confirmed that the selected compound inhibits aggregation of synthetic Abeta42 peptide. The fluorescence-based method described here is rapid and inexpensive and can be used to screen large libraries for inhibitors of Abeta42 aggregation and/or amyloidogenesis.
ACS Chem Biol 2006 Aug 22
PMID:A high-throughput screen for compounds that inhibit aggregation of the Alzheimer's peptide. 1716 17

The composition of an atherosclerotic plaque is an important determinant of plaque stability. Unstable rupture-prone plaques are characterized by a thin fibrous cap that contains few muscle cells. Several lines of evidence suggest that macrophage activation in the unstable shoulder of the plaque could contribute to plaque rupture by releasing toxic factors, possibly nitric oxide (NO), to smooth muscle cells. These macrophages are also involved in the uptake of apoptotic cells (AC) and the inefficient removal of the latter might contribute to the formation of the necrotic core through accumulation of necrotic debris. Furthermore, these AC rapidly expose phosphatidylserine on their surface, which is a potent substrate for the generation of thrombin and activation of the coagulation cascade. The following new insights in the etiopathogenesis of atherothrombosis will be discussed: (1) Human atherosclerotic plaques contain amyloid precursor protein (APP) and beta-amyloid peptide, which is cleaved from APP and which has been extensively studied in Alzheimer's disease. Macrophages phagocytose platelets,which contain APP in their alpha-granules and this platelet derived APP is subsequently proteolytically processed in these macrophages into beta-amyloid The latter is involved in the upregulation of the inducible NO-synthase which results in an increased production of toxic amounts of NO. (2) Phagocytosis of the pro-coagulant ACS is severely impaired in advanced human atherosclerotic plaques. Several factors present in the atherosclerotic lesion,such as accumulation of indigestible material in the macrophage cytoplasm,oxidative stress,and the presence of oxidized LDL or oxidized erythrocytes may contribute to the impairment of phagocytosis. (3) In order to study the impact of the impaired phagocytosis by the macrophages on the atherosclerotic lesion development,a double knock-out mouse was created which spontaneously develops atherosclerosis combined with a deficient phagocytotic capacity. Completely unexpected the double-knock out mouse developed an until now not described phenotype resembling the metabolic syndrome including a spectacular increase in body weight,accumulation of abdominal fat and fat in the liver and increased plasma levels of cholesterol. Furthermore the atherosclerotic lesions demonstrated a striking different morphology as compared to the lesions present in mice which spontaneously develop atherosclerosis.
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PMID:[New insights into the etiopathogenesis of atherosclerosis and atherothrombosis]. 1717 27

Using luminescent conjugated polyelectrolyte probes (LCPs), we demonstrate the possibility to distinguish amyloid-beta 1-42 peptide (Abeta1-42) fibril conformations, by analyzing in vitro generated amyloid fibrils of Abeta1-42 formed under quiescent and agitated conditions. LCPs were then shown to resolve such conformational heterogeneity of amyloid deposits in vivo. A diversity of amyloid deposits depending upon morphology and anatomic location was illustrated with LCPs in frozen ex vivo brain sections from a transgenic mouse model (tg-APP swe) of Alzheimer's disease. Comparative LCP fluorescence showed that compact-core plaques of amyloid beta precursor protein transgenic mice were composed of rigid dense amyloid. A more abundant form of amyloid plaque displayed morphology of a compact center with a protruding diffuse exterior. Surprisingly, the compact center of these plaques showed disordered conformations of the fibrils, and the exterior was composed of rigid amyloid protruding from the disordered center. This type of plaque appears to grow from more loosely assembled regions toward solidified amyloid tentacles. This work demonstrates how application of LCPs can prove helpful to monitor aggregate structure of in vivo formed amyloid deposits such as architecture, maturity, and origin.
ACS Chem Biol 2007 Aug 17
PMID:Imaging distinct conformational states of amyloid-beta fibrils in Alzheimer's disease using novel luminescent probes. 1770 68

In the early 1900s, Alois Alzheimer diagnosed one of his patients with a devastating neurological impairment, and this form of dementia became known as Alzheimer's disease (AD). Much research over the past century has clearly established that numerous human diseases, ranging from AD and Parkinson's disease to dialysis-related amyloidosis, are best characterized by the abnormal aggregation of specific proteins. However, in the case of AD, the true toxic molecular species is still debated. Thus, the recent development of new diagnostic agents capable of distinguishing between different morphologies of aggregated proteins is of much interest.
ACS Chem Biol 2007 Aug 17
PMID:When conjugated polymers meet amyloid fibrils. 1767 9

Alzheimer's disease (AD) is a progressive chronic disorder that leads to cognitive decline. Several studies have associated up-regulation of some of the chemokines and/or their receptors with altered APP processing leading to increased production of beta-amyloid protein (Abeta) and AD pathological changes. However, there is no direct evidence to date to determine whether the altered processing of APP results in up-regulation of these receptors or whether the up-regulation of the chemokine receptors causes modulated processing of APP. In the current study, we demonstrate that treatment of the chemokine receptor CXCR2 with agonists leads to enhancement of Abeta production and treatment with antagonists or immunodepletion of CXCR2's endogenous agonists leads to Abeta inhibition. Further, we found that the inhibitory effect of the antagonist of CXCR2 on Abeta40 and Abeta42 is mediated via gamma-secretase, specifically through reduction in expression of presenilin (PS), one of the gamma-secretase components. Also, in vivo chronic treatment with a CXCR2 antagonist blocked Abeta40 and Abeta42 production. Using small interfering RNAs for CXCR2, we further showed that knockdown of CXCR2 in vitro accumulates gamma-secretase substrates C99 and C83 with reduced production of both Abeta40 and Abeta42. Taken together, these findings strongly suggest for the first time that up-regulation of the CXCR2 receptor can be the driving force in increased production of Abeta. Our findings unravel new mechanisms involving the CXCR2 receptor in the pathogenesis of AD and pose it as a potential target for developing novel therapeutics for intervention in this disease. Also, we propose here a new chemical series of interest that can serve as a prototype for drug development.
ACS Chem Biol 2008 Dec 19
PMID:Novel role of CXCR2 in regulation of gamma-secretase activity. 1906 86

Molecular probes for selective identification of protein aggregates are important to advance our understanding of the molecular pathogenesis underlying cerebral amyloidoses. Here we report the chemical design of pentameric thiophene derivatives, denoted luminescent conjugated oligothiophenes (LCOs), which could be used for real-time visualization of cerebral protein aggregates in transgenic mouse models of neurodegenerative diseases by multiphoton microscopy. One of the LCOs, p-FTAA, could be utilized for ex vivo spectral assignment of distinct prion deposits from two mouse-adapted prion strains. p-FTAA also revealed staining of transient soluble pre-fibrillar non-thioflavinophilic Abeta-assemblies during in vitro fibrillation of Abeta peptides. In brain tissue samples, Abeta deposits and neurofibrillary tangles (NFTs) were readily identified by a strong fluorescence from p-FTAA and the LCO staining showed complete co-localization with conventional antibodies (6E10 and AT8). In addition, a patchy islet-like staining of individual Abeta plaque was unveiled by the anti-oligomer A11 antibody during co-staining with p-FTAA. The major hallmarks of Alzheimer's disease, namely, Abeta aggregates versus NFTs, could also be distinguished because of distinct emission spectra from p-FTAA. Overall, we demonstrate that LCOs can be utilized as powerful practical research tools for studying protein aggregation diseases and facilitate the study of amyloid origin, evolution and maturation, Abeta-tau interactions, and pathogenesis both ex vivo and in vivo.
ACS Chem Biol 2009 Aug 21
PMID:Novel pentameric thiophene derivatives for in vitro and in vivo optical imaging of a plethora of protein aggregates in cerebral amyloidoses. 1962 97

Alzheimer's disease (AD) is a progressive mental disorder disease, which affects 26.6 million people worldwide and estimated increments can be 100 millions by 2050. Since there is no cure at present, early diagnosis of AD is crucial for the current drug treatments. Driven by the need, here we demonstrate for the first time that monoclonal anti-tau antibody-coated gold nanoparticle based two-photon scattering assay can be used for the detection of Alzheimer's tau protein in the 1 pg/mL level which is about 2 orders of magnitude lower than cutoff values (195 pg/mL) for tau protein in CSF (cerebrospinal fluid). We have shown that when anti-tau antibody-coated gold nanoparticles were mixed with 20 ng/mL of tau protein, two-photon Rayleigh scattering intensity (TPRS) increases by about 16 times. The mechanism of TPRS intensity change has been discussed. Our data demonstrated that our TPRS assay is highly sensitive to tau protein and it can distinguish from BSA, which is one of the most abundant protein components in CSF. Our results demonstrate the potential for a broad application of this type of nanobionanotechnology in practical biomedical applications.
ACS Nano 2009 Sep 22
PMID:Ultrasensitive and highly selective detection of Alzheimer's disease biomarker using two-photon Rayleigh scattering properties of gold nanoparticle. 1969 50


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