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Recombinant factor h and variants and conjugates thereof

a technology of recombinant factor and variant, applied in the field of recombinant factor h and variants and conjugates thereof, can solve the problems of logistical and technical difficulties, health risks, and the expected amount of inadequate fh variants, and achieves the effect of not being easy to achiev

Inactive Publication Date: 2015-05-21
THE UNIV COURT OF THE UNIV OF EDINBURGH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

The present invention provides methods for producing large quantities of recombinant mammalian FH and its variants in a cost-effective and efficient manner. This was previously not possible using conventionally cloned recombinantly expressed FH. The methods also prevent aggregation and minimize proteolysis, which can be problematic when preparing pharmaceutical formulations. These technical effects have led to a significant increase in the yield of recombinant FH and its variants, making it easier to produce and purify them for various applications.

Problems solved by technology

However current attempts to produce FH through over-expression of a gene in recombinant cells have failed to yield the quantities that would be required for therapy, while purification from human plasma of sufficient quantities of the appropriate variants of FH has logistical and technical difficulties and carries health risks.
The quantities of recombinant protein obtained from this cell line are not disclosed, but based on precedent and in the absence of any evidence to the contrary the amounts are expected to be inadequate for therapeutic purposes.
Thus although the above two documents disclose the idea of using recombinant FH therapeutically, neither document actually teaches the large-scale production of recombinant FH that is absolutely essential for its therapeutic application; as shown herein, this is not a straightforward task.
Indeed, in the limited data supporting the patents discussed above, the authors demonstrated capability of producing only minute quantities (less than about 1 mg) of recombinant FH and did not provide evidence that they had purified or characterised this material.
However, it does not describe how to clone the gene such that it is possible to express functional human Factor H protein.
However, no quantification of the amount of full length porcine factor H from a standard fermentation nor any functional data for the full length protein (rather than only fragments) is shown.
However, there is no disclosure or teaching of how to express functional human Factor H.
The use of porcine Factor H naturally carries the risk of infection with cross-species zoonotic infections.
It is therefore very likely autoantibodies to porcine Factor H would be made, which would again limit therapeutic usage.
It is not possible clinically to routinely obtain plasma containing only the FH Y402 allotype (which is protective against AMD); when purified in bulk from pooled plasma, FH is heterogeneous in terms of both its heterotypic and glycoform variations and hence this material is ill-suited for therapy; antibody-affinity based purification methods generally yield only small amounts (a few mg at most) of material that can be enriched only for a single variant at a specific site of variation (e.g. for Y402) but will be heterogeneous with respect to other polymorphic sites (e.g. V62I).
Any use of plasma-purified human proteins would in any case may carry unacceptable risks, of infection with both unknown viral and prion proteins, and of sensitisation to contaminating plasma components, when used on the repetitive basis proposed for AMD, aHUS and DDD therapies.

Method used

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  • Recombinant factor h and variants and conjugates thereof
  • Recombinant factor h and variants and conjugates thereof
  • Recombinant factor h and variants and conjugates thereof

Examples

Experimental program
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Effect test

example 1

Attempted Expression of Non-Codon-Optimised DNA Encoding FH

[0078]Human FH-encoding DNA was amplified from cDNA, and inserted into the yeast expression vector pPICZalphaB, and KM71 H P. pastoris cells were duly transformed. Cell colonies grew on high antibiotic-containing plates, consistent with the presence of multiple copies of the gene in the transformed cells. We failed, however, to detect (on SDS-PAGE, stained with Coomassie Blue) any evidence of FH expression in mini-scale cultures. Nor was any detectable recombinant FH produced in shaker-flask cultures. We next checked to see if protein expression by transformed cells could be detected under ideal expression conditions (as may be achieved in a one-litre fermentor in which oxygen and nutrient levels are maintained at near-optimal levels) and by using more sensitive detection methods (Western-dot-blot, see FIG. 2); notwithstanding these steps and even with the additional use of a larger-scale (three-litre) fermentation, no recom...

example 2

Development, Purification and Characterisation of Codon-Optimised Human Factor H

[0082]Codon optimisation aimed at human FH expression in P. pastoris was carried out by consultation between the inventors and Geneart (Regensburg, Germany) using their proprietary techniques and GeneOptimizer® software.

[0083]The nucleic acid sequence of a codon-optimised form of human FH, for expression in P. pastoris, is significantly different (it has 76% sequence identity) to the native DNA sequence (see FIG. 1).

[0084]The codon-optimised DNA sequence was synthesised by Geneart and then cloned into an Invitrogen-purchased P. pastoris-based expression vector, pPICZ alpha B-vector, which had been restricted using appropriate restriction enzymes.

[0085]The vector was transformed into E. coli in order to amplify the DNA, yielding several 10s of μg of plasmid DNA. This was purified, linearised (to enhance homologous recombination) and then transformed (using electroporation) into P. pastoris strain, KM71 H....

example 3

Further Development of Human and Mouse FH Variants Using Codon-Optimised DNA; Elaboration to Enhance Therapeutic Efficacy

[0089]In a first step, a set of 11 plasmid vectors (vector numbers 1 through 11) was designed by the inventors (FIGS. 4A and 4B) in order to further exemplify the utility and versatility of expression of a synthetic codon-optimised gene in P. pastoris. This set of vectors was designed so as to allow “cutting and pasting” of DNA encoding FH between vectors so as to maximise the number of secretion pathways that could be easily explored for each of the targeted FH variants. The aim was to produce mouse FH in addition to human FH, since mouse FH is needed for trials in mice.

[0090]In a second step, the 11 DNA inserts (see FIGS. 5A and 5B for sequence information) intended for codon optimisation were designed by the inventors based on (i) the desired amino acid residue sequences, (ii) the requirement for suitable endonuclease restriction sites, (iii) the incorporation ...

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Abstract

The present invention relates to recombinant factor H and variants and conjugates thereof and methods of their production, as well as uses and methods of treatment involving the materials.

Description

FIELD OF THE INVENTION[0001]The present invention relates to recombinant factor H and variants and conjugates thereof and methods of their production, as well as uses and methods of treatment involving said materials.BACKGROUND OF THE INVENTION[0002]An increasing body of evidence suggests that the complement system regulatory glycoprotein, factor H (FH), if produced in sufficient quantities and endowed with appropriate pharmacokinetic and pharmacodynamic properties, would serve as a new biotherapeutic agent. This agent could prevent development of age-related macular degeneration (AMD) in genetically susceptible individuals and facilitate treatment in those with AMD and two life-threatening kidney conditions known as atypical haemolytic uraemic syndrome (aHUS) and dense deposit disease (DDD). More speculatively, this agent could have beneficial effects in the treatment or prevention of numerous other diseases in which inadequate complement regulation contributes to aetiology or symp...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): C12N9/88
CPCC12Y402/01002C12N9/88A61P9/10A61P13/12A61P15/00A61P25/28A61P27/02A61P31/04A61P37/06C07K14/472C07K14/4702
Inventor SCHMIDT, CHRISTOPHBARLOW, PAUL N.RICHARDS, ANNA
Owner THE UNIV COURT OF THE UNIV OF EDINBURGH
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