Antibody therapy is coming of age, with 15 monoclonal antibodies approved for therapeutic use in the United States and many others currently undergoing clinical trials (1). The advent of antibody engineering over the past two decades has contributed to the recent clinical success of therapeutic antibodies. The development of chimeric (2) and humanized (3) antibodies not only reduced the potent immunogenicity of rodent antibodies in humans but also improved the serum halflives and efficacy of such therapeutics compared with rodent antibodies. Phage display (4) and other display technologies have led to the ability to increase the affinity of antibodies for their target antigens. More recently, antibody engineering has been used to modify the effector functions of antibodies by altering their binding to C1q (5) and various Fc␥ receptors (6).The neonatal Fc receptor (FcRn) 1 is a heterodimer that comprises a transmembrane ␣ chain with structural homology to the extracellular domains of the ␣ chain of major histocompatibility complex class I molecules, and a soluble light chain consisting of 2-microglubulin (2m) (7). FcRn mediates both transcytosis of maternal IgG to the fetus or neonate and IgG homeostasis in adults (8). Evidence for the latter role initially came from studies indicating an unusually short serum halflife for IgG antibodies in 2m-deficient mice (9 -11). This observation led to the generation of mutant mouse hinge-Fc fragments with enhanced binding to FcRn and increased serum persistence in mice (12). Recently, several studies have identified human IgG 1 mutants with enhanced FcRn binding (6, 13), although no improvement in the serum half-lives of these mutants was observed in mice (13) or reported in primates.The binding of IgG to FcRn is sharply pH-dependent; IgG binds to FcRn under mildly acidic conditions and is released under slightly basic conditions (14). It has been hypothesized that pinocytosed IgG antibodies are captured by FcRn in acidified endosomes, rescued from degradation in lysosomes, recycled back to the cell surface, and returned to the circulation (8). Mutagenesis studies have identified both the mouse (15, 16) and human (17) Fc residues believed to be important in mediating pH-dependent binding. The results of the mutagenesis studies are consistent with the interpretation of a crystallographic study of the Fc⅐FcRn interaction (18). In the current study, molecular modeling was used to identify residues in the human IgG Fc near the FcRn binding site that, when mutated, might alter binding to FcRn without affecting the pH dependence of this interaction. Following exhaustive mutagenesis at these positions, several IgG 2 mutants were identified with improved binding to FcRn at pH 6.0 that retained the property of pH-dependent release. A pharmacokinetics study in rhesus monkeys showed that two mutant IgG 2 antibodies with increased FcRn binding affinity had considerably longer serum half-lives than the wild-type antibody. EXPERIMENTAL PROCEDURESMolecular Modeling-Molecular models o...
Survivin is a member of the inhibitor of apoptosis protein (IAP) family that is believed to play a role in oncogenesis. To elucidate further its physiologic role(s), we have characterized the murinesurvivin gene and complementary DNA (cDNA). The structural organization of the survivin gene, located on chromosome 11E2, is similar to that of its human counterpart, both containing 4 exons. Surprisingly, 3 full-length murine survivin cDNA clones were isolated, predicting the existence of 3 distinct survivin proteins. The longest open reading frame, derived from all 4 exons, predicts a 140-amino acid residue protein, survivin140, similar to human survivin, which contains a single IAP repeat and a COOH-terminal coiled-coil domain that links its function to the cell cycle. A second cDNA, which retains intron 3, predicts the existence of a 121-amino acid protein, survivin121 that lacks the coiled-coil domain. Removal of exon 2-derived sequences by alternative pre-messenger RNA (mRNA) splicing results in a third 40-amino acid residue protein, survivin40, lacking the IAP repeat and coiled-coil structure. Predictably, only recombinant survivin140 and survivin121 inhibited caspase-3 activity. All 3 mRNA species were variably expressed during development from 7.5 days postcoitum. Of the adult tissues surveyed, thymus and testis accumulated high levels of survivin140 mRNA, whereas survivin121-specific transcripts were detected in all tissues, while those representing survivin40 were absent. Human counterparts to the 3 survivin mRNA transcripts were identified in a study of human cells and tissues. The presence of distinct isoforms of survivin that are expressed differentially suggests that survivin plays a complex role in regulating apoptosis.
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