Proteins plaque

Figure 14.1. Diagrammatic representation of a /J-amyloid protein plaque.

The exact cause of Alzheimer s disease remains unknown, although a number of factors have been suggested. These include metabolism and regulation of amyloid precursor protein, plaque-related proteins, tau proteins, zinc, copper, and aluminum [1]. 

The most widely accepted theory of prion diseases suggests that the infectious prion protein has the same primary structure as a normal protein found in nerve cells, but it differs in its tertiary structure. In effect, it is a misfolded, denatured version of a normal protein that polymerizes to form the amyloid protein plaques seen in the brains of infected animals. When an animal ingests infected food, the polymerized protein resists digestion. Because it is simply a misfolded version of a normal protein, the infectious prion does not provoke the host s immune system to attack the pathogen. 

This progressive dementia results from growing protein deposits, insoluble protein plaques (amyloid plaques), and insoluble protein neurofibrillary tangles in the brain that cause death of brain cells and loss of brain tissue. 

Indeed, everything is chemistry, from the air that we breathe and the food that we eat to our thoughts, joys, and sorrows, and all the way to the protein plaque that may one day cover our brains like a viscous wad. And chemistry is also everything it is, on the one hand, the intimate knowledge of matter, and on the other hand, it is the constituent of living creatures and the matrix for their well-being. Chemistry is a call for the owner of this knowledge to handle matter with care. We (the chemical community) are still not there, but we are on the way... 

Bacterial catabolism of oral food residue is probably responsible for a higher [NHj] in the oral cavity than in the rest of the respiratory tract.Ammonia, the by-product of oral bacterial protein catabolism and subsequent ureolysis, desorbs from the fluid lining the oral cavity to the airstream.. Saliva, gingival crevicular fluids, and dental plaque supply urea to oral bacteria and may themselves be sites of bacterial NH3 production, based on the presence of urease in each of these materials.Consequently, oral cavity fNTi3)4 is controlled by factors that influence bacterial protein catabolism and ureolysis. Such factors may include the pH of the surface lining fluid, bacterial nutrient sources (food residue on teeth or on buccal surfaces), saliva production, saliva pH, and the effects of oral surface temperature on bacterial metabolism and wall blood flow. The role of teeth, as structures that facilitate bacterial colonization and food entrapment, in augmenting [NH3J4 is unknown. 

Acute phase reactants (e.g., C-reactive protein) are proteins that increase during inflammation and are deposited in damaged tissues. They were first discovered in the serum, but are now known to be involved in inflammatory processes in the brain (e.g., found in the brain of Alzheimer patients and associated with amyloid plaques). 

Amyloid precursor protein (APP) is the precursor of (3-amyloid, the main component of senile plaques found in the brain of Alzheimer patients. The production of (3-amyloid from APP to the cells from abnormal proteolytic cleavage of the amyloid precursor protein. Enzymes involved in this cleavage may be suitable targets for the therapy of Alzheimer s disease. 

The calcification of atherosclerotic plaques may be induced by osteopontin expression, since osteopontin is a protein with a well-characterized role in bone formation and calcification. Vascular smooth muscle cell migration on osteopontin is dq endent on the integrin av 33 and antagonists of av 33 prevent both smooth muscle cell migration and restenosis in some animal model [8]. 

T-cells, representing the adaptive arm of the immune response, also play a critical role in atherogenesis, and enter lesions in response to the chemokines inducible protein-10 (DP-10), monokine induced by DFN-y (MIG), and DFN-inducible T-cell a-chemoattractant (I-TAC), which bind CXCR3 (a chemokine receptor containing two cysteine residues separated by one amino acid), highly expressed by T lymphocytes in the plaque. The... 

Multiple sclerosis The 150-kDa calpain specific degradation product of a-spectrin increases 50% in human MS plaques.44 Degradation of the 68-kDa neurofilament protein is inhibited by a synthetic calpain inhibitor45... 

Desmoplakin is the most abundant desmosomal component that plays a critical role in linking intermediate filament networks to the desmosomal plaque. Desmoplakin forms rod-like dimers that bind to intermediate filaments and to the cadherin-associated proteins plakoglobin and plakophilin. Gene knock-out experiments have revealed an essential role of desmoplakin in establishing cell-cell contacts in early mouse embryos. 

In contrast to the formation and calcification of bones, vitamin K seems to lower the risk of aortic calcification. The mechanisms for these antagonistic effects is not known but a participation of osteocalcin (expressed in artherosclerotic plaques) as well as of matrix Gla protein (MGP) are discussed. In addition, the vitamin K epoxide reductase complex seems to be involved [5]. 

Just like in coiled-coils, p-sheet secondary structure (Fig. 2) is ubiquitous in natural examples and in proteins and biomaterials. Alzheimer s disease is characterized by fibrillar amyloid plaques in the cerebral parenchyma. The insoluble amyloid fibrils are predominantly formed upon conformational switching of the 42 amino acid... 

Hemostasis is the cessation of bleeding from a cut or severed vessel, whereas thrombosis occurs when the endothelium lining blood vessels is damaged or removed (eg, upon rupmre of an atherosclerotic plaque). These processes encompass blood clotting (coagulation) and involve blood vessels, platelet aggregation, and plasma proteins that cause formation or dissolution of platelet aggregates. 

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