Permanent phenotypic correction of hemophilia B in immunocompetent mice by prenatal gene therapy

Simon N. Waddington; Megha S. Nivsarkar; Ajay R. Mistry; Suzanne M K Buckley; Geoffrey Kemball-Cook; Karen L. Mosley; Kyriacos Mitrophanous; Pippa Radcliffe; Maxine V. Holder; Mairi Brittan; Anastasios Georgiadis; Faisal Al-Allaf; Brian W. Bigger; Lisa G. Gregory; H. Terence Cook; Robin R. Ali; Adrian Thrasher; Edward G D Tuddenham; Mike Themis; Charles Coutelle

doi:10.1182/blood-2004-02-0627

Permanent phenotypic correction of hemophilia B in immunocompetent mice by prenatal gene therapy

Simon N. Waddington, Megha S. Nivsarkar, Ajay R. Mistry, Suzanne M K Buckley, Geoffrey Kemball-Cook, Karen L. Mosley, Kyriacos Mitrophanous, Pippa Radcliffe, Maxine V. Holder, Mairi Brittan, Anastasios Georgiadis, Faisal Al-Allaf, Brian W. Bigger, Lisa G. Gregory, H. Terence Cook, Robin R. Ali, Adrian Thrasher, Edward G D Tuddenham, Mike Themis, Charles Coutelle

Research output: Contribution to journal › Article › peer-review

Abstract

Hemophilia B, also known as Christmas disease, arises from mutations in the factor IX (F9) gene. Its treatment in humans, by recombinant protein substitution, is expensive, thus limiting its application to intermittent treatment in bleeding episodes and prophylaxis during surgery; development of inhibitory antibodies is an associated hazard. This study demonstrates permanent therapeutic correction of this disease without development of immune reactions by introduction of an HIV-based lentiviral vector encoding the human factor IX protein into the fetal circulation of immunocompetent hemophiliac and normal outbred mice. Plasma factor IX antigen remained at around 9%, 13%, and 16% of normal in the 3 hemophilia B mice, respectively, until the last measurement at 14 months. Substantial improvement in blood coagulability as measured by coagulation assay was seen in all 3 mice and they rapidly stopped bleeding after venipuncture. No humoral or cellular immunity against the protein, elevation of serum liver enzymes, or vector spread to the germline or maternal circulation were detected. © 2004 by The American Society of Hematology.

Original language	English
Pages (from-to)	2714-2721
Number of pages	7
Journal	Blood
Volume	104
Issue number	9
DOIs	https://doi.org/10.1182/blood-2004-02-0627
Publication status	Published - 1 Nov 2004

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Waddington, S. N., Nivsarkar, M. S., Mistry, A. R., Buckley, S. M. K., Kemball-Cook, G., Mosley, K. L., Mitrophanous, K., Radcliffe, P., Holder, M. V., Brittan, M., Georgiadis, A., Al-Allaf, F., Bigger, B. W., Gregory, L. G., Terence Cook, H., Ali, R. R., Thrasher, A., Tuddenham, E. G. D., Themis, M., & Coutelle, C. (2004). Permanent phenotypic correction of hemophilia B in immunocompetent mice by prenatal gene therapy. Blood, 104(9), 2714-2721. https://doi.org/10.1182/blood-2004-02-0627

@article{6643035392624adcad6f5f770a7eaabd,

title = "Permanent phenotypic correction of hemophilia B in immunocompetent mice by prenatal gene therapy",

abstract = "Hemophilia B, also known as Christmas disease, arises from mutations in the factor IX (F9) gene. Its treatment in humans, by recombinant protein substitution, is expensive, thus limiting its application to intermittent treatment in bleeding episodes and prophylaxis during surgery; development of inhibitory antibodies is an associated hazard. This study demonstrates permanent therapeutic correction of this disease without development of immune reactions by introduction of an HIV-based lentiviral vector encoding the human factor IX protein into the fetal circulation of immunocompetent hemophiliac and normal outbred mice. Plasma factor IX antigen remained at around 9%, 13%, and 16% of normal in the 3 hemophilia B mice, respectively, until the last measurement at 14 months. Substantial improvement in blood coagulability as measured by coagulation assay was seen in all 3 mice and they rapidly stopped bleeding after venipuncture. No humoral or cellular immunity against the protein, elevation of serum liver enzymes, or vector spread to the germline or maternal circulation were detected. {\textcopyright} 2004 by The American Society of Hematology.",

author = "Waddington, {Simon N.} and Nivsarkar, {Megha S.} and Mistry, {Ajay R.} and Buckley, {Suzanne M K} and Geoffrey Kemball-Cook and Mosley, {Karen L.} and Kyriacos Mitrophanous and Pippa Radcliffe and Holder, {Maxine V.} and Mairi Brittan and Anastasios Georgiadis and Faisal Al-Allaf and Bigger, {Brian W.} and Gregory, {Lisa G.} and {Terence Cook}, H. and Ali, {Robin R.} and Adrian Thrasher and Tuddenham, {Edward G D} and Mike Themis and Charles Coutelle",

year = "2004",

month = nov,

day = "1",

doi = "10.1182/blood-2004-02-0627",

language = "English",

volume = "104",

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journal = "Blood",

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Waddington, SN, Nivsarkar, MS, Mistry, AR, Buckley, SMK, Kemball-Cook, G, Mosley, KL, Mitrophanous, K, Radcliffe, P, Holder, MV, Brittan, M, Georgiadis, A, Al-Allaf, F, Bigger, BW, Gregory, LG, Terence Cook, H, Ali, RR, Thrasher, A, Tuddenham, EGD, Themis, M & Coutelle, C 2004, 'Permanent phenotypic correction of hemophilia B in immunocompetent mice by prenatal gene therapy', Blood, vol. 104, no. 9, pp. 2714-2721. https://doi.org/10.1182/blood-2004-02-0627

TY - JOUR

T1 - Permanent phenotypic correction of hemophilia B in immunocompetent mice by prenatal gene therapy

AU - Waddington, Simon N.

AU - Nivsarkar, Megha S.

AU - Mistry, Ajay R.

AU - Buckley, Suzanne M K

AU - Kemball-Cook, Geoffrey

AU - Mosley, Karen L.

AU - Mitrophanous, Kyriacos

AU - Radcliffe, Pippa

AU - Holder, Maxine V.

AU - Brittan, Mairi

AU - Georgiadis, Anastasios

AU - Al-Allaf, Faisal

AU - Bigger, Brian W.

AU - Gregory, Lisa G.

AU - Terence Cook, H.

AU - Ali, Robin R.

AU - Thrasher, Adrian

AU - Tuddenham, Edward G D

AU - Themis, Mike

AU - Coutelle, Charles

PY - 2004/11/1

Y1 - 2004/11/1

N2 - Hemophilia B, also known as Christmas disease, arises from mutations in the factor IX (F9) gene. Its treatment in humans, by recombinant protein substitution, is expensive, thus limiting its application to intermittent treatment in bleeding episodes and prophylaxis during surgery; development of inhibitory antibodies is an associated hazard. This study demonstrates permanent therapeutic correction of this disease without development of immune reactions by introduction of an HIV-based lentiviral vector encoding the human factor IX protein into the fetal circulation of immunocompetent hemophiliac and normal outbred mice. Plasma factor IX antigen remained at around 9%, 13%, and 16% of normal in the 3 hemophilia B mice, respectively, until the last measurement at 14 months. Substantial improvement in blood coagulability as measured by coagulation assay was seen in all 3 mice and they rapidly stopped bleeding after venipuncture. No humoral or cellular immunity against the protein, elevation of serum liver enzymes, or vector spread to the germline or maternal circulation were detected. © 2004 by The American Society of Hematology.

AB - Hemophilia B, also known as Christmas disease, arises from mutations in the factor IX (F9) gene. Its treatment in humans, by recombinant protein substitution, is expensive, thus limiting its application to intermittent treatment in bleeding episodes and prophylaxis during surgery; development of inhibitory antibodies is an associated hazard. This study demonstrates permanent therapeutic correction of this disease without development of immune reactions by introduction of an HIV-based lentiviral vector encoding the human factor IX protein into the fetal circulation of immunocompetent hemophiliac and normal outbred mice. Plasma factor IX antigen remained at around 9%, 13%, and 16% of normal in the 3 hemophilia B mice, respectively, until the last measurement at 14 months. Substantial improvement in blood coagulability as measured by coagulation assay was seen in all 3 mice and they rapidly stopped bleeding after venipuncture. No humoral or cellular immunity against the protein, elevation of serum liver enzymes, or vector spread to the germline or maternal circulation were detected. © 2004 by The American Society of Hematology.

U2 - 10.1182/blood-2004-02-0627

DO - 10.1182/blood-2004-02-0627

M3 - Article

C2 - 15231566

SN - 0006-4971

VL - 104

SP - 2714

EP - 2721

JO - Blood

JF - Blood

IS - 9

ER -

Permanent phenotypic correction of hemophilia B in immunocompetent mice by prenatal gene therapy

Abstract

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