CD34 splice variant: an attractive marker for selection of gene-modified cells.

Fehse B; Richters A; Putimtseva-Scharf K; Klump H; Li Z; Ostertag W; Zander AR; Baum C

doi:10.1006/mthe.2000.0068

CD34 splice variant: an attractive marker for selection of gene-modified cells.

Fehse B ¹,

Richters A ,

Putimtseva-Scharf K ,

Li Z ,

Affiliations

1. Bone Marrow Transplantation, Heinrich-Pette-Institute for Experimental Virology and Immunology, Martinistrasse 52, Hamburg, D-20246, Germany.
Authors
Fehse B¹
(1 author)

ORCIDs linked to this article

Klump H | 0000-0003-3536-1212

Molecular Therapy : the Journal of the American Society of Gene Therapy, 01 May 2000, 1(5 Pt 1):448-456
https://doi.org/10.1006/mthe.2000.0068 PMID: 10933966

Abstract

This study presents a promising selection system for gene-modified cells other than human hematopoietic progenitor and endothelial cells based on transgenic expression of human CD34. Three retrovirally transduced variants of CD34 were compared, differing in the length of their cytoplasmic domains. These were the full-length transmembrane protein (flCD34), a truncated form (tCD34) that is found as a naturally occurring splice variant and has a partial deletion of the cytoplasmic domain for signal transduction, and an engineered variant which is completely deprived of its cytoplasmic tail (dCD34). All three variants allowed selection of gene-modified cells using commercially available immunoaffinity technology. However, examination by flow cytometry as well as by Southern, Northern, and Western blot revealed that dCD34, as opposed to tCD34, is not stably anchored in the membrane and thus is expressed at low levels on the surface of transduced cells. Therefore, tCD34 was chosen as the more promising candidate for a clinically applicable cell surface marker. We show that gene-modified human primary T lymphocytes expressing tCD34 can be enriched to high purity (>95%) using clinically approved immunoaffinity columns. In addition, we demonstrate the utility of tCD34 for surface marking of murine hematopoietic cells in vivo, including primary T lymphocytes detected 9 weeks after bone marrow transplantation.

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References

Articles referenced by this article (28)

Measuring gene-transfer efficiency.
Comoli P, Dilloo D, Hutchings M, Hoffma T, Heslop HE
Nat Med, (12):1280-1281 1996
MED: 8946816
Cell-surface markers for assessing gene transfer into human hematopoietic cells.
Phillips K, Gentry T, McCowage G, Gilboa E, Smith C
Nat Med, (10):1154-1156 1996
MED: 8837618
Impact of a new generation of gene transfer markers on gene therapy.
Fehse B, Li Z, Schade UM, Uhde A, Zander AR
Gene Ther, (4):429-430 1998
MED: 9614565
HSV-TK gene transfer into donor lymphocytes for control of allogeneic graft-versus-leukemia.
Bonini C, Ferrari G, Verzeletti S, Servida P, Zappone E, Ruggieri L, Ponzoni M, Rossini S, Mavilio F, Traversari C, Bordignon C
Science, (5319):1719-1724 1997
MED: 9180086
Selective immunoaffinity-based enrichment of CD34+ cells transduced with retroviral vectors containing an intracytoplasmatically truncated version of the human low-affinity nerve growth factor receptor (deltaLNGFR) gene.
Fehse B, Uhde A, Fehse N, Eckert HG, Clausen J, Ruger R, Koch S, Ostertag W, Zander AR, Stockschlader M
Hum Gene Ther, (15):1815-1824 1997
MED: 9358031
Rapid and efficient selection of human hematopoietic cells expressing murine heat-stable antigen as an indicator of retroviral-mediated gene transfer.
Conneally E, Bardy P, Eaves CJ, Thomas T, Chappel S, Shpall EJ, Humphries RK
Blood, (2):456-464 1996
MED: 8555466
Transduction of human hematopoietic cells and cell lines using a retroviral vector containing a modified murine CD4 reporter gene.
Bauer TR Jr, Hickstein DD
Hum Gene Ther, (3):243-252 1997
MED: 9048191
Use of the green fluorescent protein as a marker to identify and track genetically modified hematopoietic cells.
Persons DA, Allay JA, Riberdy JM, Wersto RP, Donahue RE, Sorrentino BP, Nienhuis AW
Nat Med, (10):1201-1205 1998
MED: 9771757
CD34: structure, biology, and clinical utility.
Krause DS, Fackler MJ, Civin CI, May WS
Blood, (1):1-13 1996
MED: 8547630
Isolation of highly purified autologous and allogeneic peripheral CD34+ cells using the CliniMACS device.
Schumm M, Lang P, Taylor G, Kuci S, Klingebiel T, Buhring HJ, Geiselhart A, Niethammer D, Handgretinger R
J Hematother, (2):209-218 1999
MED: 10349915

Show 10 more references (10 of 28)

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