Portal de Periódicos da CAPES

Differential processing of hormone precursor Independent production of somatostatins 14 and 28 in transfected neuroblastoma 2A cells

1991; Wiley; Volume: 282; Issue: 2 Linguagem: Inglês

10.1016/0014-5793(91)80514-4

1873-3468

Noureddine Brakch, Mohamed Rholam, Christiane Nault, Guy Boileau, Paul A. Cohen,

HER2/EGFR in Cancer Research

Neuro 2A cells infected with a retroviral vector carrying human prosomatostatin cDNA expressed and processed correctly the precursor into somatostatins‐14 and ‐28 [(1989) EMBO J. 8, 2911–2916]. In order to study the mechanisms by which the active hormone sequences arise, site directed mutagenesis was performed on either the dibasic (ArgLys) or monobasic (Arg) cleavage sites involved in the production of somatostatins‐14 and ‐28, respectively. Radioimmunochemical analysis of the somatostatin‐related products indicated that replacement of either Arg −2 ‐Lys −1 by Asn −2 ‐Asn −1 or of Arg −15 by Asn −12 resulted in the exclusive production of either somatostatin‐28 or ‐14, respectively. Moreover only prosomatostatin[1–76] was detected and no somatostatin‐28[1–12] could be measured in cell extracts. Selective suppression of either somatostatin‐14 or somatostatin‐28 release by mutation did not affect the level of production of the other hormone but resulted in a correlative increase of unprocessed prosomatostatin. It is concluded that in this cell type (i) somatostatin‐14 is exclusively generated by dibasic cleavage at the Arg −2 ‐Lys t1̄ site of the intact precursor with concomitant product of prosomatostatin[1–76], and (ii) no direct interactions between the monobasic and dibasic processing domains occur.