1. Academic Validation
  2. Characterisation of the 5 kDa growth hormone isoform

Characterisation of the 5 kDa growth hormone isoform

  • Growth Factors. 2008 Jun;26(3):152-62. doi: 10.1080/08977190802127952.
Gerard Such-Sanmartín 1 Jaume Bosch Jordi Segura Moutian Wu Hongwu Du Guangyu Chen Shan Wang Miquel Vila-Perelló David Andreu Ricardo Gutiérrez-Gallego
Affiliations

Affiliation

  • 1 Pharmacology Research Unit, Municipal Institute for Medical Research (IMIM), Barcelona, Spain.
Abstract

Objectives: The 5 kDa N-terminal fragment of 43 Amino acids of human growth hormone (GH) shows a specific and significant in-vivo insulin-like activity. This isoform can be easily obtained by solid phase synthesis methods. Our objective in this study is to describe this procedure in detail and to provide structural information of the protein.

Methods: Solid phase synthesis was employed for the synthesis of the 5 kDa GH isoform. Circular dichroism and limited proteolysis have been carried out to provide structural information about the folded state of the protein in solution. Surface plasmon resonance was used to compare the structural equivalence between the synthetic protein and a proteolytic homologue at an antibody binding level. For this purpose, a murine monoclonal antibody specific for the 5 kDa isoform was generated and characterised employing this and several other GH isoforms.

Results: Circular dichroism and proteolysis results suggested that the C-terminal segment of the 5 kDa protein folds in an alpha-helix. The comparison of the synthetic product to its proteolytic homologue at an antibody binding level suggested structural equivalency. A highly specific antibody against the 5 kDa GH isoform was generated with null cross-reactivity for 17, 20 and 22 kDa isoforms. Kinetic data on the interaction with the synthetic 5 kDa GH was obtained.

Conclusions: The structure of the protein appears to be different in comparison to when it is included within the 22 kDa GH isoform. Finally, a highly specific antibody has been generated. The possible significance of the 5 kDa protein as a potential agent for obesity-related diseases is discussed.

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