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Methods for correcting von willebrand factor point mutations

Inactive Publication Date: 2015-06-18
PRESIDENT & FELLOWS OF HARVARD COLLEGE
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

The patent text describes a system for editing nucleic acids using a modified version of the CRISPR system called dCas9. This system can be used to target specific genes and install new base modifications with high efficiency and no stochasticity. The system consists of a fusion protein of dCas9 and a nucleic acid editing enzyme or domain. The nucleic acid editing domain can be a deaminase, such as cytidine deaminase or adenosine deaminase. The system can be used for gene editing in a variety of organisms and cell lines, and has potential applications in research and human therapeutics.

Problems solved by technology

Significantly, 80-90% of protein mutations responsible for human disease arise from the substitution, deletion, or insertion of only a single nucleotide.6 No genome engineering tools, however, have yet been developed that enable the manipulation of a single nucleotide in a general and direct manner.
The resulting mismatch is recognized by the cell's endogenous repair system and fixed, leading to a change in the sequence of either the chimera or the genome.

Method used

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  • Methods for correcting von willebrand factor point mutations
  • Methods for correcting von willebrand factor point mutations

Examples

Experimental program
Comparison scheme
Effect test

example 1

Fusion Proteins

[0120]Exemplary Cas9: deaminase fusion proteins are provided below:

[0121]Cas9: Human AID Fusion (C-Terminal)

(SEQ ID NO: 30)MDSLLMNRRKFLYQFKNVRWAKGRRETYLCDKKYSIGLAIGTNSVGWAVITDEYKVPSKKFKVLGNTDRHSIKKNLIGALLFDSGETAEATRLKRTARRRYTRRKNRICYLQEIFSNEMAKVDDSFFHRLEESFLVEEDKKHERHPIFGNIVDEVAYHEKYPTIYHLRKKLVDSTDKADLRLIYLALAHMIKFRGHFLIEGDLNPDNSDVDKLFIQLVQTYNQLFEENPINASGVDAKAILSARLSKSRRLENLIAQLPGEKKNGLFGNLIALSLGLTPNFKSNFDLAEDAKLQLSKDTYDDDLDNLLAQIGDQYADLFLAAKNLSDAILLSDILRVNTEITKAPLSASMIKRYDEHHQDLTLLKALVRQQLPEKYKEIFFDQSKNGYAGYIDGGASQEEFYKFIKPILEKMDGTEELLVKLNREDLLRKQRTFDNGSIPHQIHLGELHAILRRQEDFYPFLKDNREKIEKILTFRIPYYVGPLARGNSRFAWMTRKSEETITPWNFEEVVDKGASAQSFIERMTNFDKNLPNEKVLPKHSLLYEYFTVYNELTKVKYVTEGMRKPAFLSGEQKKAIVDLLFKTNRKVTVKQLKEDYFKKIECFDSVEISGVEDRFNASLGTYHDLLKIIKDKDFLDNEENEDILEDIVLTLTLFEDREMIEERLKTYAHLFDDKVMKQLKRRRYTGWGRLSRKLINGIRDKQSGKTILDFLKSDGFANRNFMQLIHDDSLTFKEDIQKAQVSGQGDSLHEHIANLAGSPAIKKGILQTVKVVDELVKVMGRHKPENIVIEMARENQTTQKGQKNSRERMKRIEEGIKELGSQILKEHPVENTQLQNEKLYLYYLQNGRDMYVDQELDI...

example 2

Correction of a PI3K Point Mutation by a Cas9 Fusion Protein

[0128]An A3140G point mutation in exon 20 of the PI3KCA gene, resulting in an H1047R amino acid substitution in the PI3K protein is corrected by contacting a nucleic acid encoding the mutant protein with a Cas9:AID (SEQ ID NO: 30) or a Cas9:APOBEC1 (SEQ ID NO: 92) fusion protein and an appropriately designed sgRNA targeting the fusion protein to the mutation site in the encoding PI3KCA gene. The A3140G point mutation is confirmed via genomic PCR of the respective exon 20 sequence, e.g., generation of a PCR amplicon of nucleotides 3000-3250, and subsequent sequencing of the PCT amplicon.

[0129]Cells expressing a mutant PI3K protein comprising an A3140G point mutation in exon 20 are contacted with an expression construct encoding the Cas9:AID (SEQ ID NO: 30) or a Cas9:APOBEC1 (SEQ ID NO: 92) fusion protein and an appropriately designed sgRNA targeting the fusion protein to the mutation site in the antisense strand of the encod...

example 3

Correction of a Presenilin 1 Point Mutation by a Cas9 Fusion Protein

[0131]An A->G point mutation in codon 143 of the presenilin1 (PSEN1) gene, resulting in an I143V amino acid substitution in the PSEN1 protein is corrected by contacting a nucleic acid encoding the mutant PSEN1 protein with a Cas9:AID (SEQ ID NO: 30) or a Cas9:APOBEC1 (SEQ ID NO: 92) fusion protein and an appropriately designed sgRNA targeting the fusion protein to the mutation site in the encoding PSEN1 gene. See, e.g., Gallo et. al., J. Alzheimer's disease. 2011; 25: 425-431 for a description of an exemplary PSEN1 I143V mutation associated with familial Alzheimer's Disease. The A->G point mutation is confirmed via genomic PCR of the respective PSEN1 sequence, e.g., generation of a PCR amplicon of about 100-250 nucleotides around exon 143, and subsequent sequencing of the PCT amplicon.

[0132]Cells expressing the mutant PSEN1 protein are contacted with an expression construct encoding the Cas9:AID (SEQ ID NO: 30) or a...

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Abstract

Some aspects of this disclosure provide strategies, systems, reagents, methods, and kits that are useful for the targeted editing of nucleic acids, including editing a nucleic acid encoding a mutant von Willebrand Factor protein to correct a point mutation associated with a disease or disorder, e.g., with von Willebrand disease. The methods provided are useful for correcting a vWF point mutation within the genome of a cell or subject, e.g., within the human genome. In some embodiments, fusion proteins of Cas9 and nucleic acid editing enzymes or enzyme domains, e.g., deaminase domains, are provided. In some embodiments, reagents and kits for the generation of targeted nucleic acid editing proteins, e.g., fusion proteins of Cas9 and nucleic acid editing enzymes or domains, are provided.

Description

RELATED APPLICATION[0001]This application claims priority under 35 U.S.C. §119(e) to U.S. provisional patent application, U.S. Ser. No. 61 / 915,386 filed Dec. 12, 2013, and U.S. provisional patent application, U.S. Ser. No. 61 / 980,333 filed Apr. 16, 2014, the entire contents of each of which is incorporated herein by reference.BACKGROUND OF THE INVENTION[0002]Targeted editing of nucleic acid sequences, for example, the introduction of a specific modification into genomic DNA, is a highly promising approach for the study of gene function and also has the potential to provide new therapies for human genetic diseases.1 An ideal nucleic acid editing technology possesses three characteristics: (1) high efficiency of installing the desired modification; (2) minimal off-target activity; and (3) the ability to be programmed to edit precisely any site in a given nucleic acid, e.g., any site within the human genome.2 Current genome engineering tools, including engineered zinc finger nucleases ...

Claims

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Application Information

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IPC IPC(8): C12N15/01C12N9/78C12N9/22C12P19/34C12Q1/68
CPCC12N15/01C12P19/34C12Q1/6883C12Q2600/156C12N9/78C07K2319/00C12Y305/04C12N9/22C12N15/102C12Y304/22062C12Y305/04001C12N9/6472C07K2319/80A61K38/465A61K38/50C12Y305/04004C12Y305/04005C12Y301/00C12Y301/22A61P11/00A61P13/02A61P13/12A61P17/00A61P19/00A61P21/00A61P25/00A61P25/28A61P3/00A61P35/00Y02A50/30A61K47/61
Inventor LIU, DAVID R.KOMOR, ALEXIS CHRISTINE
Owner PRESIDENT & FELLOWS OF HARVARD COLLEGE
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