Process for the enzymatic cleavage of recombinant proteins using IgA proteases

US 5,427,927 A
Filed: 08/30/1992
Issued: 06/27/1995
Est. Priority Date: 02/03/1990
Status: Expired due to Term

First Claim

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1. Process for preparation of a desired component of a fusion protein, comprising:

(a) modifying a junction region between two components of said fusion protein to form an IgA protease recognition site therein, wherein said recognition site has amino acid sequence;
space="preserve" listing-type="equation">Y-Pro.!.X-Prowherein "!" is a cleavage site for said IgA protease, Y is at least one amino acid in length, and X is a single amino acid;

(b) contacting said fusion protein with IgA protease to cleave it at !, and(c) isolating a desired component formed thereby.

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Abstract

For the enzymatic cleavage of fusion proteins and for the isolation of deed components of these fusion proteins

(1) a junction region, in which two components of the fusion protein are joined together, is modified by means of genetic engineering so that at least one IgA protease recognition site with the amino acid sequence Y-Pro.!.X-Pro is formed in this junction region, in which X can be any amino acid and Y can be one or several arbitrary amino acids,

(2) the fusion protein which results from step (1) is cleaved by IgA protease at the position in the recognition site marked with .!. and

(3) after the cleavage one or several desired components of the fusion protein are isolated.

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57 Claims

1. Process for preparation of a desired component of a fusion protein, comprising:
- (a) modifying a junction region between two components of said fusion protein to form an IgA protease recognition site therein, wherein said recognition site has amino acid sequence;
  space="preserve" listing-type="equation">Y-Pro.!.X-Pro
  wherein "!" is a cleavage site for said IgA protease, Y is at least one amino acid in length, and X is a single amino acid;
  (b) contacting said fusion protein with IgA protease to cleave it at !, and(c) isolating a desired component formed thereby.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 17, 18, 19, 20, 21, 22, 23)
- - 2. Process of claim 1, comprising modifying said junction region by incorporating at least one nucleotide sequence into said junction region, said incorporating thereby forming an IgA protease recognition site in said junction region.
  - 3. Process of claim 1, comprising modifying a junction region of a fusion protein which does not have a natural IgA protease recognition site.
  - 4. Process of claim 1, wherein said fusion protein comprises at least one carrier component.
  - 5. Process of claim 4, wherein said carrier component comprises at least a portion of a β
    - galactosidase molecule.
  - 6. Process of claim 4, wherein said carrier component comprises a plurality of charged amino acids.
  - 7. Process of claim 4, wherein said carrier component is a peptide or protein with high affinity for a specific substance.
  - 8. Process of claim 1, wherein X is Ser, Thr or Ala.
  - 9. Process of claim 8, wherein X is Ser or Thr.
  - 10. Process of claim 1, wherein Y terminates at its C terminal with a member selected from the group consisting of Pro, Pro-Ala, Arg-Pro, Pro-Arg-Pro, Ala-Pro-Arg-Pro and Pro-Ala -Pro-Arg-Pro.
  - 11. Process of claim 1, wherein said IgA protease recognition site has an amino acid sequence selected from the group consisting of:
    - a) Pro-Ala-Pro.!.Ser-Prob) Pro-Pro.!.Ser-Proc) Pro-Arg-Pro-Pro.!.Ala-Prod) Pro-Pro.!.Thr-Proe) Ala-Pro-Arg-Pro-Pro.!.Thr-Pro, andf) Pro-Ala-Pro-Arg-Pro-Pro.!.Thr-Pro.
  - 17. Process of claim 1, wherein said IgA protease is a Neisseria IgA protease.
  - 18. Process of claim 1, wherein said IgA protease is a Haemophilus IgA protease.
  - 19. Process of claim 17, wherein said Neisseria is Neisseria gonorrhoeae or Neisseria meningitides.
  - 20. Process of claim 18, wherein said Haemophilis is Haemophilus influenzae or Haemophilus aegypticus.
  - 21. Process of claim 1, wherein said IgA protease is a modified, natural IgA protease.
  - 22. Process of claim 1, wherein said IgA protease is obtained from an overproducing, non-pathogenic strain of bacteria.
  - 23. Process of claim 1, wherein said IgA protease is immobilized.

12. Process for production of a desired substance, comprising:
- (a) transforming a host cell with at least one copy of a DNA sequence which codes for a fusion protein, said fusion protein having an IgA protease recognition site at a junction region between two components of said fusion protein, wherein one of said components is said desired substance, wherein said recognition site has amino acid sequence
  space="preserve" listing-type="equation">Y-Pro.!.X-Pro
  wherein Y is at least one amino acid, X is one amino acid, and "!" is a recognition and cleavage site for an IgA protease,
  (b) culturing said cell in a culture medium to express said fusion protein,(c) cleaving fusion protein expressed thereby with an IgA protease to form cleavage products, and(d) isolating said desired substance from said cleavage products.
- View Dependent Claims (13, 14, 15, 16, 24, 25, 26, 27, 28, 29, 30, 31, 32)
- - 13. Process of claim 12, wherein said DNA sequence is a vector.
  - 14. Process of claim 12, comprising cleaving said fusion protein in said medium.
  - 15. Process of claim 14, comprising lysing said transformed cell prior to cleaving said fusion protein.
  - 16. Process of claim 14, comprising removing native cellular proteins prior to cleaving said fusion protein.
  - 24. Process of claim 12, wherein said fusion protein is present in soluble form.
  - 25. Process of claim 12, wherein said fusion protein is present in insoluble form.
  - 26. Process of claim 12, wherein said fusion protein is present in membrane associated form.
  - 27. Process of claim 12, wherein said fusion protein is present in cell bound form.
  - 28. Process of claim 12, wherein said fusion protein is present as an inclusion body.
  - 29. Process of claim 12, wherein said host cell is a prokaryote, said fusion protein consists of amino acid sequence
    
    space="preserve" listing-type="equation">Met-Y-Pro-!-X-Pro-A
    wherein X is one amino acid, Y is at least one amino acid, and A is at least one amino acid.
- 30. Process of claim 29, wherein said desired substance has amino acid beginning with sequence X-Pro.
- 31. Process of claim 29, wherein X-Pro-A is human granulocyte colony stimulating factor or a derivative thereof.
- 32. Process of claim 29, further comprising treating cleavage product X-Pro-A with a dipeptidyl aminopeptidase to cleave x-Pro therefrom.

33. Fusion protein comprising a plurality of polypeptide components, said fusion protein having at least one IgA protease recognition site, said recognition site having amino acid sequence:
- space="preserve" listing-type="equation">Y-Pro.!.X-Pro
  wherein X is any amino acid and Y is one or more amino acid, wherein each said recognition site is positioned in a junction region between two polypeptide components of said fusion protein.
- View Dependent Claims (34, 35, 36, 37, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56)
- - 34. The fusion protein of claim 33, wherein said fusion protein consists of amino acid sequence
    
    space="preserve" listing-type="equation">Y-Pro.!.X-Pro-A,
    wherein A is at least one amino acid long.
- 35. The fusion protein of claim 33, wherein X is an amino acid selected from the group consisting of Ser, Thr, and Ala.
- 36. The fusion protein of claim 33, wherein Y has a C terminus selected from the group consisting of Pro, Pro-Ala, Pro -Arg-Pro, Ala-Pro-Arg-Pro, and Pro-Ala-Pro-Arg-Pro.
- 37. The fusion protein of claim 34, wherein x-Pro-A is human granulocyte colony stimulating factor or a derivative thereof.
- 42. Isolated nucleic acid sequence coding for the fusion protein of claim 33.
- 43. Isolated nucleic acid sequence coding for the fusion protein of claim 34.
- 44. Isolated nucleic acid sequence coding for the fusion protein of claim 35.
- 45. Recombinant vector comprising the isolated nucleic acid sequence of claim 44, operably linked to a promoter.
- 46. Recombinant vector comprising the isolated nucleic acid sequence of claim 43 operably linked to a promoter.
- 47. The recombinant vector of claim 45, wherein said promoter is inducible.
- 48. The recombinant vector of claim 46, wherein said promoter is inducible.
- 49. The recombinant vector of claim 46, wherein said vector is a prokaryotic vector.
- 50. The recombinant vector of claim 45, wherein said vector is a prokaryotic vector.
- 51. The recombinant vector of claim 47, wherein said vector is a prokaryotic vector.
- 52. The recombinant vector of claim 48, wherein said vector is a prokaryotic vector.
- 53. The recombinant vector of claim 45, wherein said vector is a plasmid.
- 54. The recombinant vector of claim 46, wherein said vector is a plasmid.
- 55. Cell transformed with the nucleic acid sequence of claim 42.
- 56. The cell of claim 55, wherein said cell is a prokaryote.

38. Recombinant prokaryotically produced mature granulocyte colony stimulating factor (G-CSF), wherein said G-CSF has an N-terminal sequence Thr-Pro.
- View Dependent Claims (39, 40, 41)
- - 39. Composition comprising the G-CSF of claim 38 and less than 0.1% of other proteins.
  - 40. The composition of claim 39, having less than 10^-3 % of other proteins.
  - 41. The composition of claim 39, further comprising a member selected from the group consisting of a pharmaceutical additive, an auxiliary agent, and a pharmaceutical carrier.

57. Recombinant prokaryotically produced mature G-CSF having an N-terminal sequence Thr-Pro produced by the process of;
- (a) expressing a fusion protein forming an IgA protease recognition site between a first and second region, wherein said second region encodes mature G-CSF having an N-terminal sequence Thr-Pro and said recognition site has an amino acid sequence;
  space="preserve" listing-type="equation">Y-Pro-!-Thr-Pro
  wherein "!" is a cleavage site for said IgA protease and Y is at least one amino acid in length,
  (b) contacting said fusion protein with an IgA protease to cleave it at !, and(c) isolating mature G-CSF having an N-terminal sequence Thr-Pro.

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Current Assignee
Max-Planck-Gesellschaft Zur Foerderung Der Wissenschaften e.V. (Max-Planck-Gesellschaft zur Frderung der Wissenschaften e)
Original Assignee
Max-Planck-Gesellschaft Zur Foerderung Der Wissenschaften e.V. (Max-Planck-Gesellschaft zur Frderung der Wissenschaften e)
Inventors
Pohlner, Johannes, Meyer, Thomas F., Schumacher, Gunter, Dony, Carola
Primary Examiner(s)
Patterson, Jr., Charles L.

Application Number

US07/917,034
Time in Patent Office

1,031 Days
Field of Search

435/69.5, 435/69.52, 435/69.7, 435/320.1, 435/252.3, 435/252.33, 424/12, 530/351, 536/23.4, 536/23.5
US Class Current

435/69.7
CPC Class Codes

A61K 38/00   Medicinal preparations cont...

A61P 37/04   Immunostimulants

C07K 14/28   from Vibrionaceae (F)

C07K 14/535   Granulocyte CSF; Granulocyt...

C07K 14/5403   IL-3

C07K 14/5409   IL-5

C07K 14/55   IL-2

C07K 14/705   Receptors; Cell surface ant...

C07K 19/00   Hybrid peptides , i.e. pept...

C07K 2319/00   Fusion polypeptide

C12N 15/62   DNA sequences coding for fu...

C12N 9/12   transferring phosphorus con...

C12N 9/52   derived from bacteria or Ar...

C12P 21/06   produced by the hydrolysis ...

Process for the enzymatic cleavage of recombinant proteins using IgA proteases

First Claim

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Abstract

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Process for the enzymatic cleavage of recombinant proteins using IgA proteases

First Claim

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Accused Products

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Abstract

58 Citations

57 Claims

Specification

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