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Genetic effects of halogenated thymidine analogs incorporated during thymidylate synthetase inhibition
Vol. 2, No. 6
BIOCHEMICAL
GENETIC EFFECTS OF HALOGENATED INCORPORATED DURING THYMIDYLATE Z. Institute
Received
are
thymine
but was
shown
analogs
or by interference
of prototrophic
either with
and 5-
acid
and Griboff,
(DNA)
1954;
Dunn
strains
was
of
and Smith, negligible,
by the use of deoxyribosylated
the endogenous
or sulfanilamide
purpose
(Zamenhof
of the present
of the incorporation the DNA
methylation
of deoxyuridylic
et al.,
1958;
To create deoxyuridine This Fellow General Poland.
Dunn
and
the consequences
(SM)
dependent,
thymidine-non-requiring
used
extensively
in our
earlier
(IUDR)
into
strain
mutagenicity
studies
1958). artificially
(FUDR) research
was to evaluate and 5-iododeoxyuridine
coli,
and Szybalski,
studies
of 5-bromo-(BUDR)
of streptomycin
Sd4 of Escherichia
**;*
the deoxyribonucleic
the DNA
to be increased
5-bromo-,
1957). The
*e
5-chloro-,
(Zamenhof
into
by aminopterin
0
into
bacteria
Incorporation
(Iyer
analogs,
incorporated
1957).
Smith,
University,
1960
thymine-deficient
acid
ANALOGS INHIBITION*
and W. Szybalski**”
Lorkiewicz””
Halogenated iodouracil,
THYMIDINE SYNTHETASE
of Microbiology, Rutgers, The State New Brunswick, New Jersey
May 19,
June 1960
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
was was
conditions employed,
supported
of the Rockefeller Microbiology,
of thymidine an analog
in part
deficiency,
5-fluoro-
to inhibit
irreversibly
known
by the National
Science
Foundation.
Foundation; on leave from Department of University of M. Curie-SHodowska, Lublin,
Present address: McArdle Memorial Wisconsin, Madison 6, Wisconsin. 413
Laboratory,
University
of
Vol. 2, No. 6
BIOCHEMICAL
thymidylate
synthetase
FUDR
alone
partially growing
(0.25-0.50
cells
Na2HP04; 30 200
were
or
ml
IUDR
Under
these
the
in
bacterial
thymidine the
Figure
1.
Inhibition
FUDR
(0.5
pg/ml)
reversal
by
pg FUDR/ml) curves
l
) and
E.
its
(200
pg
BUDR/ml
conditions
mutants
were
grown
cells.
strain
are
and
observed
susceptible
propagated
for
51%
and
two
IUDR
of FUDR,
to
three
43%
of
substitution
respectively.
kg/ml)
cultures.
of
rates
toward
(Iyer
and in
FUDR-, controlling
to
supplemented
growth
increases
loci
19%
casamino
water)
absence
g
+ 0.5
among the
the
is
0.021
vitamin-free
replaced
which
Logarithmically
g KH2P04;
dist.
and
effect
by
cells
earlier
1).
1958).
partial
) control
two-fold
Thus not
15.6%
IUDR-labeled
described
ml
June 1960
et al., an
(0.01
FUDR,
In
with
mutation
(Fig.
3 g Bacto
BUDR
(200
( 0
ml
1000
DNA.
Sd4
) and
higher
methods
5 mg
( A
BUDR-free
significantly
and
coli
together
or
CaC12;
Cohen growth,
SS medium
1M
of only
of
per
conditions
BUDR-supplemented
BUDR-
some
extent
( W ),
for
by
the
BUDR
BUDR
3 g NH4Cl;
0.3
1957;
bacterial
into
g MgS04.7H20;
BUDR
to
kg
transferred
generations.
occurred
inhibits
50-200
g glycerol; mg
et al.,
pg/ml) by
0.3
acids;
(
(Heidelberger
reversed
with
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
the
mutagenic 414
E.
coli
Sd4
do
not
generally
exhibit
SM
independence,
as
assessed
Szybalski,
1958),
although
under
the
frequency
of SM-independent
FUDR
+ BUDR-,
mutation
to
effect
SM
or
FUDR
independence
of BUDR
or
IUDR
+ IUDRin to
this the
Vol. 2, No. 6
same
BIOCHEMICAL
extent
as
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
certain
loci
in
phage
1959)
(Freese,
or bacteria
June 1960
(Zamenhof,
1959).
observed these
Although
no
with
BUDR
analogs
process. grown
clearly or
affect It was
bacteria
in
perceptible IUDR,
any
reported
it was
way by
become
direct
the
interesting
and
light Zamenhof
sensitive
to
UV
effect
to determine
ultraviolet
Greer
highly
mutagenic
was whether
(UV)-initiated (1957)
light.
mutagenic
that
The
latter
5-bromouracileffect
was
C A 0.ooo10
SXIO~ UV
t
2x10’
IX@
DOSE
DOSE INCAEASE RATIO IPHOloRLAcllvATIONI
I pJ4 5 DOSE REDUCTION RATIO (RAoI~SENS~T~~A~~~N)
3X@
(ERGS/mm=)
Figure 2. A: UV survival before (solid lines) and after photoreactivation (broken lines) of E. coli Sd4 grown in the absence (control) or in the presence of BUDR or IUDR (ZOO pg/ml) on a SM (20 pg/ml) and FUDR (0.5 pg/ml) supplemented medium. B: Graphic comparison of photoreactivability for the control and for the BUDREach point represents a UV dose ratio for identical survivals grown cultures. of the photoreactivated and non-reactivated cells, as determined from Figure C: UV sensitization of BUDRand IUDR-grown cells. Each point represents UV dose ratio for identical survivals of the control and of the BUDRor IUDRsupplemented cultures.
clearly or
IUDR
(2O”C,
confirmed (Fig. saline
with 2).
and
suspension).
E.
coli
irradiated
Sd4
grown with
The
in
the
presence
a Westinghouse
resulting 415
radiosensitization,
of FUDR Sterilamp
and
BUDR
G15T18 expressed
as
2A. a
Vol. 2, No. 6
BIOCHEMICAL
the UV dose
ratio
(dose
for
reduction
identical
ratio),
substitution)
or 2.2
essentially
cells
Figure
(Fig.
3.
mutants
(43 mol
the absence pg/ml)
of UV light
and analog-grown
as 4.7
substitution)
was
related
observed
(50 mol
(Fig.
% BUDR
Xc).
to its bactericidal
between
cells
normal
effect,
and analog-labeled
c: > 3 In -9 Q: 103
of UV-induced Sd4 cultures
or presence
grown
of FUDR
or in combination
(200 pg/ml),
% IUDR
June 1960
3).
coli
alone
of normal
to as much
no differences
Frequency
in E.
survivals
amounted
The mutagenicity with
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
and plotted
ii! e
in
5 $102
(0.5
with
BUDR
as a function
s E ~ IO’
of
UV survival. f 2 loo
While
attempting
photoreactivated less
to determine cells,
photoreactivable
tubes; ment
8 cm distance; with
inactivated
effect
was (2 hr,
found
that
37 “C ) than
37”C,
coli
10 pg TEM
of mutants
BUDR-labeled
in saline; normal
among cells
2 fluorescent cells
2A,
nor
the BUDR-labeled
cells
under
the conditions
employed.
of other
Sd4 cells per
incorporation agents
treated
with
ml of distilled 416
and Stahl
ZB),
the normal
and IUDR
on radiation known
to modify
triethylenemelamine water,
followed
slightly
20 Watt
(1960)
light
and Gkun
(Fig.
are
of Greer
the effect E.
that
2 hr;
fluorescent
of BUDR
us to investigate
observed
suspended
Neither by white
the frequency
(cells
the observations
communication).
The
it was
IO
in agree-
(private were
sensitivity DNA
prompter
structure.
It
(TEM) by 2 hr growth
in
Vol. 2, No. 6 nutrient
BIOCHEMICAL
medium),
of chemically Szybalski,
a powerful
modifying 1960),
presumptive gift
become
J. Lein,
Bristol
hr (37’C)
in SS medium
The
are
more
modified
DNA
and Doty, BUDR with
between molecule
1959) was
chloroform
was
formed
in a Beckman
(0.15M
NaCl,
the “melting and 89.O”C,
BUDR
of the
temperature
cells,
The equipped
of normal
it was greatly
found
(Marmur DNA
with
RNase
measurement, with
(51%
deproteinized
per-
thermospacers
no significant
difference
and BUDR-labeled
increases
and LUDR into
that the thymidylate the incorporation
the DNA
has essentially
no mutagenic
effect
the cells
UV-sensitive
and less
highly
for
temperatures.
lability
of RNA by digestion
revealed
” temperatures
slight
broth.
and BUDR-labeled
precipitation.
citrate),
effect
ml;
compounds
of elevated
Duponal-lysed
DU spectrophotometer sodium
pg per
DNA
respectively).
In summary,
analogs
and alcohol
0.015M
FUDR,
for normal
and freed
and
5-bromouracil-substituted
The melting
from
Y.)
to these
and the heat
examined.
determined
(0.1
effect
phenomenon
and butanol,
by dialysis
inhibitor,
this
mitomycin N.
of E.
coli
on the Sd locus, photoreactivable.
417
synthetase of the thymidine
Sd4.
This although
capable
survival
and another
10% nutrient
that
to the lethal
extracted
followed
(91.5
(1960)
lower
pg per ml)
exposed with
agent
(Lorkiewicz
(lo-fold
Syracuse,
of cells
by Greer
incorporation),
between
Laboratories,
sensitive
relationship
(0.5
inhibitor,
supplemented
reported
of DNA
to UV light
FUDR
UV sensitivity
and an alkylating
components
synthetase
in the
It was
mutagen
sensitive
Similarly,
increases
bacteria
more
thymidilate
of Dr.
bacterial
the pyrimidine
at 3 x IO3 ergs/mm2).
Juno 1960
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
substitution it renders
2
Vol. 2, No. 6
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
Acknowledgments: helpful
discussions
We are and to Miss
indebted
Clara
to Dr.
Bird
A.
W.
June 1960
Kosinski
for the skillful
for
assistance.
REFERENCES Cohen,
S. S.,
Flaks,
J. G.,
Lichtenstein, Dunn,
D. B.
Freese,
Proc.
J.,
and Smith,
E.,
J. Mol.
Barner,
J. Gen.
Natl.
J. D., Biol.,
Greer,
S.,
Greer,
S. and Zamenhof,
H. D., Acad.
Loeb, Sci.
Biochem.
J.,
M.
R.
and
U. S.,44, -
67,
1004 (1958).
494 (1957).
1, 87 (1959).
Microbial.,
In press.
S.,
Abstr.
Am.
Chem.
Sot.
131st
Meeting,
3c (1957). Heidelberger,
C.,
Chaudhuri,
Griesbach,
L.,
and Scheiner, Iyer,
Duschinsky, Y.,
Z. Meeting,
Marmur,
Nature,
and Szybalski,
W.,
Philadelphia
J. and Doty,
P.,
Zamenhof,
S. and Griboff,
Zamenhof,
S.,
Rich,
K.,
Danneberg, R.,
179,
W. $ Proc.
V.. and Szybalski,
Lorkiewics,
N.
1960, Nature, G.,
Schnitzer,
Acad.
Abstr.
l&,
Nature,
K. and DeGiovanni,
R.
Sci.
Biophys.
S.,
&XI.
N. Y. Acad.
Sci.,
418
J.,
D. I
Pleven,
E.
44,
446 (1958).
U. S., Sot.
4th Ann.
18. 1427 (1959). 174, R.,
306 (1954). J. Biol.
(1958). Zamenhof,
Mooren,
663 (1957).
Natl.
p.
P.,
81,
784 (1959).
Chem.,
232,
651
BIOCHEMICAL
GENETIC EFFECTS OF HALOGENATED INCORPORATED DURING THYMIDYLATE Z. Institute
Received
are
thymine
but was
shown
analogs
or by interference
of prototrophic
either with
and 5-
acid
and Griboff,
(DNA)
1954;
Dunn
strains
was
of
and Smith, negligible,
by the use of deoxyribosylated
the endogenous
or sulfanilamide
purpose
(Zamenhof
of the present
of the incorporation the DNA
methylation
of deoxyuridylic
et al.,
1958;
To create deoxyuridine This Fellow General Poland.
Dunn
and
the consequences
(SM)
dependent,
thymidine-non-requiring
used
extensively
in our
earlier
(IUDR)
into
strain
mutagenicity
studies
1958). artificially
(FUDR) research
was to evaluate and 5-iododeoxyuridine
coli,
and Szybalski,
studies
of 5-bromo-(BUDR)
of streptomycin
Sd4 of Escherichia
**;*
the deoxyribonucleic
the DNA
to be increased
5-bromo-,
1957). The
*e
5-chloro-,
(Zamenhof
into
by aminopterin
0
into
bacteria
Incorporation
(Iyer
analogs,
incorporated
1957).
Smith,
University,
1960
thymine-deficient
acid
ANALOGS INHIBITION*
and W. Szybalski**”
Lorkiewicz””
Halogenated iodouracil,
THYMIDINE SYNTHETASE
of Microbiology, Rutgers, The State New Brunswick, New Jersey
May 19,
June 1960
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
was was
conditions employed,
supported
of the Rockefeller Microbiology,
of thymidine an analog
in part
deficiency,
5-fluoro-
to inhibit
irreversibly
known
by the National
Science
Foundation.
Foundation; on leave from Department of University of M. Curie-SHodowska, Lublin,
Present address: McArdle Memorial Wisconsin, Madison 6, Wisconsin. 413
Laboratory,
University
of
Vol. 2, No. 6
BIOCHEMICAL
thymidylate
synthetase
FUDR
alone
partially growing
(0.25-0.50
cells
Na2HP04; 30 200
were
or
ml
IUDR
Under
these
the
in
bacterial
thymidine the
Figure
1.
Inhibition
FUDR
(0.5
pg/ml)
reversal
by
pg FUDR/ml) curves
l
) and
E.
its
(200
pg
BUDR/ml
conditions
mutants
were
grown
cells.
strain
are
and
observed
susceptible
propagated
for
51%
and
two
IUDR
of FUDR,
to
three
43%
of
substitution
respectively.
kg/ml)
cultures.
of
rates
toward
(Iyer
and in
FUDR-, controlling
to
supplemented
growth
increases
loci
19%
casamino
water)
absence
g
+ 0.5
among the
the
is
0.021
vitamin-free
replaced
which
Logarithmically
g KH2P04;
dist.
and
effect
by
cells
earlier
1).
1958).
partial
) control
two-fold
Thus not
15.6%
IUDR-labeled
described
ml
June 1960
et al., an
(0.01
FUDR,
In
with
mutation
(Fig.
3 g Bacto
BUDR
(200
( 0
ml
1000
DNA.
Sd4
) and
higher
methods
5 mg
( A
BUDR-free
significantly
and
coli
together
or
CaC12;
Cohen growth,
SS medium
1M
of only
of
per
conditions
BUDR-supplemented
BUDR-
some
extent
( W ),
for
by
the
BUDR
BUDR
3 g NH4Cl;
0.3
1957;
bacterial
into
g MgS04.7H20;
BUDR
to
kg
transferred
generations.
occurred
inhibits
50-200
g glycerol; mg
et al.,
pg/ml) by
0.3
acids;
(
(Heidelberger
reversed
with
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
the
mutagenic 414
E.
coli
Sd4
do
not
generally
exhibit
SM
independence,
as
assessed
Szybalski,
1958),
although
under
the
frequency
of SM-independent
FUDR
+ BUDR-,
mutation
to
effect
SM
or
FUDR
independence
of BUDR
or
IUDR
+ IUDRin to
this the
Vol. 2, No. 6
same
BIOCHEMICAL
extent
as
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
certain
loci
in
phage
1959)
(Freese,
or bacteria
June 1960
(Zamenhof,
1959).
observed these
Although
no
with
BUDR
analogs
process. grown
clearly or
affect It was
bacteria
in
perceptible IUDR,
any
reported
it was
way by
become
direct
the
interesting
and
light Zamenhof
sensitive
to
UV
effect
to determine
ultraviolet
Greer
highly
mutagenic
was whether
(UV)-initiated (1957)
light.
mutagenic
that
The
latter
5-bromouracileffect
was
C A 0.ooo10
SXIO~ UV
t
2x10’
IX@
DOSE
DOSE INCAEASE RATIO IPHOloRLAcllvATIONI
I pJ4 5 DOSE REDUCTION RATIO (RAoI~SENS~T~~A~~~N)
3X@
(ERGS/mm=)
Figure 2. A: UV survival before (solid lines) and after photoreactivation (broken lines) of E. coli Sd4 grown in the absence (control) or in the presence of BUDR or IUDR (ZOO pg/ml) on a SM (20 pg/ml) and FUDR (0.5 pg/ml) supplemented medium. B: Graphic comparison of photoreactivability for the control and for the BUDREach point represents a UV dose ratio for identical survivals grown cultures. of the photoreactivated and non-reactivated cells, as determined from Figure C: UV sensitization of BUDRand IUDR-grown cells. Each point represents UV dose ratio for identical survivals of the control and of the BUDRor IUDRsupplemented cultures.
clearly or
IUDR
(2O”C,
confirmed (Fig. saline
with 2).
and
suspension).
E.
coli
irradiated
Sd4
grown with
The
in
the
presence
a Westinghouse
resulting 415
radiosensitization,
of FUDR Sterilamp
and
BUDR
G15T18 expressed
as
2A. a
Vol. 2, No. 6
BIOCHEMICAL
the UV dose
ratio
(dose
for
reduction
identical
ratio),
substitution)
or 2.2
essentially
cells
Figure
(Fig.
3.
mutants
(43 mol
the absence pg/ml)
of UV light
and analog-grown
as 4.7
substitution)
was
related
observed
(50 mol
(Fig.
% BUDR
Xc).
to its bactericidal
between
cells
normal
effect,
and analog-labeled
c: > 3 In -9 Q: 103
of UV-induced Sd4 cultures
or presence
grown
of FUDR
or in combination
(200 pg/ml),
% IUDR
June 1960
3).
coli
alone
of normal
to as much
no differences
Frequency
in E.
survivals
amounted
The mutagenicity with
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
and plotted
ii! e
in
5 $102
(0.5
with
BUDR
as a function
s E ~ IO’
of
UV survival. f 2 loo
While
attempting
photoreactivated less
to determine cells,
photoreactivable
tubes; ment
8 cm distance; with
inactivated
effect
was (2 hr,
found
that
37 “C ) than
37”C,
coli
10 pg TEM
of mutants
BUDR-labeled
in saline; normal
among cells
2 fluorescent cells
2A,
nor
the BUDR-labeled
cells
under
the conditions
employed.
of other
Sd4 cells per
incorporation agents
treated
with
ml of distilled 416
and Stahl
ZB),
the normal
and IUDR
on radiation known
to modify
triethylenemelamine water,
followed
slightly
20 Watt
(1960)
light
and Gkun
(Fig.
are
of Greer
the effect E.
that
2 hr;
fluorescent
of BUDR
us to investigate
observed
suspended
Neither by white
the frequency
(cells
the observations
communication).
The
it was
IO
in agree-
(private were
sensitivity DNA
prompter
structure.
It
(TEM) by 2 hr growth
in
Vol. 2, No. 6 nutrient
BIOCHEMICAL
medium),
of chemically Szybalski,
a powerful
modifying 1960),
presumptive gift
become
J. Lein,
Bristol
hr (37’C)
in SS medium
The
are
more
modified
DNA
and Doty, BUDR with
between molecule
1959) was
chloroform
was
formed
in a Beckman
(0.15M
NaCl,
the “melting and 89.O”C,
BUDR
of the
temperature
cells,
The equipped
of normal
it was greatly
found
(Marmur DNA
with
RNase
measurement, with
(51%
deproteinized
per-
thermospacers
no significant
difference
and BUDR-labeled
increases
and LUDR into
that the thymidylate the incorporation
the DNA
has essentially
no mutagenic
effect
the cells
UV-sensitive
and less
highly
for
temperatures.
lability
of RNA by digestion
revealed
” temperatures
slight
broth.
and BUDR-labeled
precipitation.
citrate),
effect
ml;
compounds
of elevated
Duponal-lysed
DU spectrophotometer sodium
pg per
DNA
respectively).
In summary,
analogs
and alcohol
0.015M
FUDR,
for normal
and freed
and
5-bromouracil-substituted
The melting
from
Y.)
to these
and the heat
examined.
determined
(0.1
effect
phenomenon
and butanol,
by dialysis
inhibitor,
this
mitomycin N.
of E.
coli
on the Sd locus, photoreactivable.
417
synthetase of the thymidine
Sd4.
This although
capable
survival
and another
10% nutrient
that
to the lethal
extracted
followed
(91.5
(1960)
lower
pg per ml)
exposed with
agent
(Lorkiewicz
(lo-fold
Syracuse,
of cells
by Greer
incorporation),
between
Laboratories,
sensitive
relationship
(0.5
inhibitor,
supplemented
reported
of DNA
to UV light
FUDR
UV sensitivity
and an alkylating
components
synthetase
in the
It was
mutagen
sensitive
Similarly,
increases
bacteria
more
thymidilate
of Dr.
bacterial
the pyrimidine
at 3 x IO3 ergs/mm2).
Juno 1960
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
substitution it renders
2
Vol. 2, No. 6
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
Acknowledgments: helpful
discussions
We are and to Miss
indebted
Clara
to Dr.
Bird
A.
W.
June 1960
Kosinski
for the skillful
for
assistance.
REFERENCES Cohen,
S. S.,
Flaks,
J. G.,
Lichtenstein, Dunn,
D. B.
Freese,
Proc.
J.,
and Smith,
E.,
J. Mol.
Barner,
J. Gen.
Natl.
J. D., Biol.,
Greer,
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