US2012276579A1PendingUtilityA1
Organic compounds
Est. expiryDec 21, 2027(~1.4 yrs left)· nominal 20-yr term from priority
C12N 15/65C12N 15/85C07K 2317/14C12P 21/00C12N 15/64C12N 15/1079C07K 16/00C07K 14/705
56
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Claims
Abstract
The present invention relates to a novel selection system for use in a eukaryotic cell culture process and for expression of a recombinant product of interest. The selection system is based on the introduction of an exogenous functional membrane-bound folate receptor gene together with the polynucleotide or gene encoding the product of interest into a eukaryotic cell and can be widely utilized with eukaryotic cells for which cellular viability is dependent upon folic acid uptake.
Claims
exact text as granted — not AI-modified1 . A eukaryotic expression vector comprising a first polynucleotide encoding a functional membrane-bound folate receptor and a second polynucleotide encoding a product of interest.
2 . The eukaryotic expression vector according to claim 1 , wherein the product of interest is selected from the group consisting of a polypeptide, a RNA and a DNA.
3 . The eukaryotic expression vector according to claim 2 , wherein the product of interest is a polypeptide.
4 . The expression vector according to claim 1 , wherein the first polynucleotide and the second polynucleotide are under the control of distinct transcription promoters.
5 . The expression vector according to claim 4 , wherein the transcription promoters are the same.
6 . The expression vector according to claim 4 , wherein the transcription promoters are different.
7 . The expression vector according to claim 4 , wherein the promoter controlling the transcription of the first polynucleotide is an SV40 promoter.
8 . The expression vector according to claim 1 , wherein the first polynucleotide and the second polynucleotide are under the control of a common transcription promoter.
9 . The expression vector according to claim 8 , wherein the common transcription promoter is an SV40 promoter.
10 . The expression vector according to claim 8 , wherein said vector comprises an IRES element functionally located between the first polynucleotide and the second polynucleotide.
11 . The expression vector according to claim 1 , wherein the functional membrane-bound folate receptor encoded by the first polynucleotide is selected from the group consisting of a folate receptor alpha (FRα), a folate receptor beta (FRβ), and a functional mutant thereof.
12 . The expression vector according to claim 11 , wherein the functional membrane-bound folate receptor encoded by the first polynucleotide is a human folate receptor alpha (hFRα).
13 . A eukaryotic cell for which cellular viability is dependent on folate uptake, and into which eukaryotic cell a first polynucleotide located on an expression vector and encoding a functional membrane-bound folate receptor and a second polynucleotide located on an expression vector and encoding a product of interest have been stably introduced, wherein the first polynucleotide and the second polynucleotide are located on the same expression vector or on separate an expression vectors.
14 . The eukaryotic cell according to claim 13 , wherein said cell is lacking full activity of at least one endogenous functional membrane-bound folate receptor.
15 . The eukaryotic cell according to claim 13 , wherein said first polynucleotide encoding a functional membrane-bound folate receptor and said second polynucleotide encoding a product of interest are located on the same expression vector.
16 . The eukaryotic cell according to claim 13 , wherein the expression vector is as defined in claim 1 .
17 . The eukaryotic cell according to claim 13 , wherein said eukaryotic cell is a mammalian cell.
18 . The eukaryotic cell according to claim 17 , wherein said mammalian cell is a rodent cell.
19 . The eukaryotic cell according to claim 18 , wherein said rodent cell is a CHO cell.
20 . A process for production of a eukaryotic cell according to claim 13 , said process comprising providing an eukaryotic cell for which cellular viability is dependent upon folate uptake, and introducing a first polynucleotide located on an expression vector and encoding the functional membrane-bound folate receptor and a second polynucleotide located on an expression vector and encoding the product of interest, wherein the first polynucleotide and the second polynucleotide are located on the same expression vector or on separate an expression vectors.
21 . The process according to claim 20 , wherein the first polynucleotide and the second polynucleotide are located on the same expression vector.
22 . The process according to claim 21 , wherein the expression vector is as defined in claim 1 .
23 . A method for selection of a eukaryotic cell capable of stably expressing a product of interest encoded by an expression vector which has been introduced into the cell, comprising
(i) providing a plurality of eukaryotic cells for which cellular viability is dependent upon folate uptake, and into which cells a first polynucleotide located on an expression vector and encoding a functional membrane-bound folate receptor and a second polynucleotide located on an expression vector and encoding the product of interest have been introduced, wherein the first polynucleotide and the second polynucleotide are located on the same expression vector or on separate expression vectors, (ii) culturing said plurality of eukaryotic cells in a cell culture medium having a limiting concentration of a folate, thereby obtaining a eukaryotic cell wherein stable expression of the product of interest is achieved.
24 . The method according to claim 23 , further comprising identifying and isolating a eukaryotic cell wherein stable expression of the product of interest is achieved.
25 . The method according to claim 23 , wherein the plurality of eukaryotic cells is composed of eukaryotic cells as defined in claim 13 .
26 . A process for production of a product of interest, comprising
(i) performing a method of selection according to claim 13 , (ii) and isolating the product of interest from said cell culture medium or from said cell.
27 . A method for selection of a eukaryotic cell capable of stably expressing a product of interest comprising the use of a functional membrane bound folate receptor as a section marker, wherein said eukaryotic cell cellular viability is dependent on the uptake of folate.
28 . The method according to claim 27 , wherein the folate receptor is selected from the group consisting of the folate receptor alpha (FRα), the folate receptor beta (FRβ), and a fuctional mutant thereof.
29 . The method according to claim 28 , wherein the folate receptor is the human folate receptor alpha (hFRα).Cited by (0)
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