To The Editor:

We have read with interest the article by Juan et al1 in the July 1, 1997 issue of Blood. The study follows a previously published paper in Blood2  from the same laboratory. Both papers focus on the biology of flt3 ligand (FL). In the Juan study, a retrovirus was constructed that expressed the full-length FL molecule and was used to infect stem cells that repopulated the hematopoietic system of lethally irradiated mice. Both reports devote a significant amount of their allotted page space to predictions of FL toxicity and suggest that the studies performed by Juan et al will be useful to predict clinical adverse events in patients receiving FL.

We believe that the model used by Juan et al is an artificial system of sustained, local, high-level production of a cytokine that inadequately mimics the effects of short-term systemic administration of growth factors. One key issue with a study such as this is the level of FL made in reconstituted animals. Figure 2 shows that FL mRNA is clearly detectable from the retroviral vector, but the endogenous FL message is virtually undetectable. This suggests that the level of vector-encoded FL is extremely high, because endogenous FL transcripts are abundant in hematopoietic organs such as the spleen.3 Unfortunately, there was no quantitation, either by enzyme-linked immunosorbent assay, histochemistry, or bioassay of how high the expression levels of FL are in these studies. Furthermore, it has been elegantly shown that the membrane-bound and soluble forms of stem cell factor elicit qualitatively different hematologic responses.4 Because FL and stem cell factor are structurally related cytokines, it stands to reason that such a difference in biologic response may exist with FL as well. There are no data in Juan et al to help understand how much of the membrane-bound and soluble forms of biologically active FL were found in experimental animals reconstituted with the FL-expressing retrovirus.

Several studies have shown that soluble, recombinant FL can be safely administered to rodents (including Molineux et al) and primates5-8 and, therefore, do not support the prediction in the discussion by Juan et al of significant risk with this growth factor, even with short courses of administration. We have completed a formal primate toxicology program with FL at doses of up to 2 mg/kg daily for 30 days and fail to see the types of tissue changes reported with retroviral expression. Furthermore, we have recently reported on the preliminary results of human clinical testing of FL at doses up to 100 μg/kg/d for 14 days in normal human subjects and have found the molecule to be very well tolerated.9 Obviously, these studies are preliminary in nature and will require further clinical testing to confirm, but the data from preclinical studies and early clinical testing are encouraging and do not support the presumption of toxicity by Juan et al.

1
Juan
TS-C
McNiece
IK
Van
G
Lacey
D
Hartley
C
McElroy
P
Sun
Y
Argento
J
Hill
D
Yan
Z-Q
Fletcher
FA
Chronic expression of murine flt3 ligand in mice results in increased circulating white blood cell levels and abnormal cellular infiltrates associated with splenic fibrosis.
Blood
90
1997
76
2
Molineux
G
McCrea
C
Yan
QX
Kerzic
P
McNiece
I
Flt3 ligand synergizes with granulocyte colony-stimulating factor to increase neutrophil numbers and to mobilize peripheral blood stem cells with long-term repopulating potential.
Blood
89
1997
3998
3
Hannum
C
Culpepper
J
Campbell
D
McClanahan
T
Zurawski
S
Bazan
JF
Kastelein
R
Hudak
S
Wagner
J
Mattson
J
Luh
J
Duda
G
Martina
N
Peterson
D
Menon
S
Shanafelt
A
Muench
M
Kelner
G
Namikawa
R
Rennick
D
Roncarlo
M-G
Zlotnik
A
Rosnet
O
Dubreuil
P
Birnbaum
D
Lee
F
Ligand for FLT3/FLK2 receptor tyrosine kinase regulates growth of haematopoietic stem cells and is encoded by variant RNAs.
Nature
368
1994
643
4
Toksoz
D
Zsebo
KM
Smith
KA
Hu
S
Brankow
D
Suggs
SV
Martin
FH
Williams
DA
Support of human hematopoiesis in long-term bone marrow cultures by murine stromal cells selectively expressing the membrane-bound and secreted forms of the human homolog of the steel gene product, stem cell factor.
Proc Natl Acad Sci USA
89
1992
7350
5
Brasel
K
McKenna
HJ
Morrissey
PJ
Charrier
K
Morris
AE
Lee
CC
Williams
DE
Lyman
SD
Hematological effects of flt3 ligand in vivo in mice.
Blood
88
1996
2204
6
Ashihara
E
Shimazaki
C
Sudo
Y
Araki
S
Yamagata
N
Goto
H
Inaba
T
Fujita
N
Lyman
SD
Nakagawa
M
Flt-3 ligand (FL) mobilizes stem/progenitor cells into blood in mice.
Exp Hematol
23
1995
801
7
Sudo
Y
Shimazaki
C
Ashihara
E
Kikuta
T
Hirai
H
Sumikuma
T
Yamagata
N
Goto
H
Inaba
T
Fujita
N
Nakagawa
M
Synergistic effect of flt-3 ligand on the granulocyte colony-stimulating factor–induced mobilization of hematopoietic stem cells and progenitor cells into blood in mice.
Blood
89
1997
3186
8
Winton EF, Bucur SZ, Bond LD, Hegwood AJ, Hillyer CD, Holland HK, Williams DE, McClure HM, Troutt AB, Lyman SD: Recombinant human (rh) flt3 ligand plus rhGM-CSF or rhG-CSF causes a marked CD34+ cell mobilization to blood in rhesus monkeys. Blood 88:2556a, 1996 (abstr, suppl 1)
9
Lebsack ME, Hoek JA, Maraskovsky E, McKenna HJ: Flt 3 ligand induces stem and dendritic cell mobilization in healthy volunteers. Proceedings of ISHAGE 3rd International Meeting. 1997, p 49
Sign in via your Institution