Proteins destined for the ER are identified by a short leading se

Proteins destined for the ER are identified by a short leading sequence of hydrophobic amino acids at the N-terminus end, which is recognised by the signal recognition particle, a ribonucleoprotein within the cytosol. Synthesis of all proteins starts on a ribosome free within the cytosol, but when the ER signal sequence is recognised by the signal recognition particle the latter binds the ribosome complex to a receptor on the outer surface of the ER membrane. This arrangement creates the characteristic beaded appearance at the ultrastructural

level referred to as rough endoplasmic reticulum, and enables the nascent polypeptide chain to be threaded through a translocation channel, the PCI-32765 molecular weight translocon, into the ER lumen. Once within the lumen, the signal sequence is cleaved, and chaperone proteins bind to the polypeptide chain to prevent premature and inappropriate folding. Glucose-regulated protein GRP78/BiP, a member of the HSP70 family, binds to hydrophobic amino acid groups of secretory proteins, and facilitates folding through the hydrolysis of ATP by an ATPase domain. Calnexin and calreticulin are specifically involved in the folding of glycoproteins, binding to monoglucosylated N-linked glycans [13]. The ER also acts as a major intracellular see more store of calcium, and the concentration within the lumen is often several thousand-fold higher than in the cytosol, reaching millimolar

levels [14]. This gradient is maintained by the activity of Ca2+-ATPases within the ER membrane, and is considered necessary for functioning of the protein folding machinery and chaperone proteins [15]. Correct folding into the secondary and tertiary conformation, and assembly into multimeric complexes, is essential for the functional competence of many proteins. For the extracellular proteins passing through the ER this most commonly involves the formation of covalent disulfide bonds between cysteine side chains, either within different parts Adenylyl cyclase of a polypeptide chain

or between two such chains. For example, the alpha sub-unit of human chorionic gonadotropin contains five disulphide bonds, while the beta sub-unit contains six [16]. Formation of disulfide bonds is an oxidative event, and consequently the ER is a site of significant production of reactive oxygen species (ROS) within the cell [17]. During the formation of a disulfide bond electrons are first removed from the cysteine thiol groups by the enzyme protein disulfide isomerase, PDI, and are transferred to molecular oxygen by the enzyme ER oxidoreduction, ERO1, using FAD as an intermediate. Because of the kinetics, full reduction of oxygen may not occur, in which case ROS intermediates such as hydrogen peroxide will be produced [17]. Consequently, the ratio of reduced to oxidised glutathione, the principal redox buffer within the ER lumen, is approximately 3:1 compared to that of approximately 100:1 in the cytosol [18].

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