Above 50 kDa, liver clearance of PEG increases and above 30 kDa PEG kidney clearance decreases. Polyethylene glycol is not easily cleaved by hydrolytic mechanisms, but there is some evidence of alternative chemical and biological chain cleavage involving CYP450 dependent enzyme oxidation and alcohol or aldehyde buy STA-9090 dehydrogenase [4, 12, 13]. Importantly, PEG polymers have high flexibility and deformity together with rod-like conformation, which allows for the glomerular filtration of larger PEGs when compared with the cut-off for glomerular proteins, although at a lower rate than smaller PEGs [4, 12, 13]. Therefore, glomerular filtration of these macromolecules is related
not only to their size and charge, but also to shape and rigidity [4, 40-42]. It can be concluded that PEG molecules of larger molecular weight than the glomerular cut-off for globular proteins can still pass through
the glomerulus and are excreted through the kidney as seen in studies in mice [37]. Hepatic clearance also contributes to excretion from the body. The existing degradation pathways together with kidney elimination and excretion through JAK inhibitor bile may avoid high mass PEG accumulation when administered in small amounts [4, 33]. Intact PEG-protein conjugates are usually cleared by protein-dependent clearance mechanisms, and for proteins that are mainly catabolized in the liver, biliary excretion may be an expected route for PEG elimination [12, 13] (Fig. 2). The feasibility of studying the metabolism of PEGylated drugs was recently summarized [12]. The authors state that radiolabelling this website either with tritium exchange
or 14C (or 125I, 18F, 111In) addition to the PEG terminus likely will not result in reliable results. The tritium method is nonspecific and tritium may be lost during exchange with water, whereas labelling the terminal end of the PEG molecule results in low activity per molecule and may result in detection problems. Labelling only the terminal end of the PEG molecule may result in loss of the label, whereas the larger part of the PEG molecule still exists in the body. Subtle changes in molecular mass due to metabolism and also polydispersity will be difficult to detect also with other methods. The authors conclude that these technical challenges will make experimentation on metabolism of PEG of little value [12]. For smaller proteins, such as G-CSF and Interferon-α, renal clearance is thought to be the primary route of elimination from circulation. PEGylation of these proteins increases their overall size and thus reduces renal filtration. Both full-length FVIII (~300 kDa) and BDD FVIII (~170 kDa) are too large to be cleared using renal filtration, and the effect of the increased half-life following PEGylation is not likely the result of increased mass.