Title of article
Use of combinatorial mutagenesis to select for multiply substituted human interleukin-3 variants with improved pharmacologic properties
Author/Authors
Barbara K. Klein، نويسنده , , Peter O. Olins، نويسنده , , S. Christopher Bauer، نويسنده , , Maire H. Caparon، نويسنده , , Alan M. Easton، نويسنده , , Sarah R. Braford، نويسنده , , Mark A. Abrams، نويسنده , , Jon A. Klover، نويسنده , , Kumnan Paik، نويسنده , , John W. Thomas، نويسنده , , William F. Hood، نويسنده , , Jeng-Jong Shieh، نويسنده , , Joseph O. Polazzi، نويسنده , , Ann M. Donnelly، نويسنده , , David L. Zeng، نويسنده , , Joseph K. Welply، نويسنده , , John P. McKearn، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 1999
Pages
11
From page
1746
To page
1756
Abstract
A combinatorial mutagenesis strategy was used to create a collection of nearly 500 variants of human interleukin 3 (IL-3), each with four to nine amino acid substitutions clustered within four linear, nonoverlapping regions of the polypeptide. The variants were secreted into the periplasm of Escherichia coli and supernatants were assayed for IL-3 receptor-dependent cell proliferation activity. Sixteen percent of the variants, containing “region-restricted” substitutions, retained substantial proliferative activity through two rounds of screening. A subset of these was combined to yield variants with substitutions distributed through approximately half of the polypeptide. With one exception, “half-substituted” variants exhibited proliferative activity within 3.5-fold of native IL-3. A subset of the “half-substituted” variants was combined to yield “fully substituted” IL-3 variants having 27 or more substitutions. The combination of the substitutions resulted in a set of polypeptides, some of which exhibit increased proliferative activity relative to native IL-3. The elevated hematopoietic potency was confirmed in a methylcellulose colony-forming unit assay using freshly isolated human bone marrow cells. A subset of the multiply substituted proteins exhibited only a modest increase in inflammatory mediator (leukotriene C4) release. The molecules also exhibited 40- to 100-fold greater affinity for the α subunit of the IL-3 receptor and demonstrated a 10-fold faster association rate with the α-receptor subunit. The multiply substituted IL-3 variants described in this study provide a unique collection of molecules from which candidates for clinical evaluation may be defined and selected.
Keywords
Escherichia coli , Leukotriene C4 , Hematopoietic cytokine , Interleukin 3 , protein engineering
Journal title
Experimental Hematology
Serial Year
1999
Journal title
Experimental Hematology
Record number
513134
Link To Document