Paul B. W. Ten Kortenaar scite author profile

The molecular basis for antigenic determinants on the free beta-subunit of human chorionic gonadotrophin (hCG beta), its carboxyl-terminal peptide (hCG beta CTP) and the hCG beta-core fragment (hCG beta cf) was elucidated by means of monoclonal antibodies (MCAs). The objective of the present study was to resolve the antigenic topography of these three molecules in terms of epitope identification at different levels of structural organization as well as analysis of their spatial arrangement. An hCG beta cf preparation, a synthetic peptide corresponding to the hCG beta CTP (beta 109-145), overlapping synthetic peptides spanning the entire amino acid sequence of hCG beta, and a reduced and alkylated hCG beta preparation were assayed in a solid-phase one-site enzyme-linked immunoassay and in a soluble-phase direct-binding radioimmunoassay (RIA) or competitive RIA. The antigenic topography was mapped by incorporating the MCAs into two-site binding assays. On the surface of free hCG beta, nine different epitopes (beta 1-beta 9), arranged in three spatially distinct domains, could be distinguished. Epitopes beta 1-beta 7 were located in a single large domain on both hCG beta and the hCG beta cf whereas hCG beta CTP contained two topographically distant determinants, designated beta 8 and beta 9 respectively. All but the two epitopes located on hCG beta CTP (beta 8 and beta 9) were destroyed by reducing and alkylating hCG beta, suggesting that most antigenic determinants are predominantly non-contiguous and require an intact tertiary structure whereas the molecular structure of hCG beta CTP is linear. At a molecular level, amino acid residues spanning hCG beta 45-52, hCG beta 137-144 and hCG beta 113-116 contributed to the formation of epitopes beta 5, beta 8 and beta 9 respectively. We have also shown that the hCG beta cf represents the immunodominant part of the free beta-subunit of hCG, containing seven mainly conformationally determined epitopes, one of which has a share of the sequence beta 45-52. The hCG beta CTP does not play a critical role in the immunologically important tertiary structure of hCG beta and was itself found to be a predominantly continuous sequence also within the native hormone, expressing two spatially distant antigenic determinants located within residues beta 113-116 and beta 137-144 respectively.

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A novel method for repetitive peptide synthesis in solution without isolation of intermediates

Eggen¹,

Bakelaar²,

Petersen³

et al. 2005

J. Peptide Sci.

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A novel method was developed for the large-scale manufacture of peptides in solution, called DioRaSSP-Diosynth Rapid Solution Synthesis of Peptides. This method combines the advantages of the homogeneous character of classical solution-phase synthesis with the universal character and the amenability to automation inherent to the solid-phase approach. The process consists of repetitive cycles of coupling and deprotection in a permanent organic phase and is further characterized by the fact that intermediates are not isolated. Couplings are mediated by water-soluble carbodiimide. Several types of function may be applied for temporary amino protection depending on the sequence of the actual peptide, including Z, Fmoc, Msc and Nsc. Formate is the preferred hydrogen donor during hydrogenolysis of the Z function, while 1,8-diazabicyclo[5.4.0]undec-7-ene is used to deprotect Fmoc, Msc and Nsc. Morpholine is added during the deprotection of Msc and Nsc to scavenge the arising alkenes. Processes according to this highly efficient synthesis method are easy to scale up and yield products of reproducible high purity, which is guaranteed by a new quenching method for residual activated compounds, applying an anion-forming amine such as a beta-alanine ester. This ester should display a lability similar to that of the temporary amino-protecting function, allowing simultaneous deprotection of the growing peptide and the quenched compound. The DioRaSSP approach assures the completely quantitative removal of deprotected quenched compounds before the coupling step of the next cycle of the synthesis by basic aqueous (that is active) extraction, while the growing peptide remains anchored in the organic phase due to the presence of hydrophobic protecting functions.

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DioRaSSP: Diosynth Rapid Solution Synthesis of Peptides

Eggen¹,

Bakelaar²,

Petersen³

et al. 2005

Org. Process Res. Dev.

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We have developed a novel method for the large-scale manufacturing of peptides in solution called DioRaSSP. It combines the advantages of the homogeneous character of classical solution-phase synthesis with the generic character and the amenability to automation inherent to the solid-phase approach. DioRaSSP is characterized by the fact that intermediates are not isolated. Processes according to this highly efficient synthesis method are easy to scale-up and yield products of reproducible high purity. Moreover, we have recently implemented the first fully automated solution-phase peptide synthesizer for application in processes according to DioRaSSP.

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