non classical platinum drugs: the trans isomers.in vitro antitumor activity s.d. = standard...
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![Page 1: Non Classical Platinum Drugs: The Trans Isomers.In vitro antitumor activity S.D. = standard deviation IC 50 values were calculated by probit analysis (P < 0.05, X2 test). Cells (3-8·104·ml-1)](https://reader030.vdocuments.us/reader030/viewer/2022040906/5e7acd58883552445b3d85df/html5/thumbnails/1.jpg)
Non Classical Platinum Drugs: The Trans Isomers.
Giovanni NATILE
Chemistry Department, University of Bari via E. Orabona 4, 70125 Bari, Italy [email protected]
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CISPLATIN
(CDDP)
PLATINUM COMPOUNDS IN CLINICAL USE
LIMITATIONS
Narrow spectrum of activity
Toxicity (particularly nephro- and neuro-
toxicity)
Resistance (intrinsic or acquired)
Development of new platinum compounds Wider
spectrum of
activity
Better
Pharmacology
New platinum
drugs
Cl
Cl N
N
Cl
Cl
Cl
Cl NH3 Pt
NH3
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- Bone tissue affinity
- Inhibition of metalloproteinases
- Activation of trans geometry
- Different mode of DNA interaction
Different ligands for new antitumoral platinum compouds
Ketimines S
O
P
O
O
O (SMP)
C N H
OCH 3
CH 3
Iminoethers P
O
P
O
O
O
O
O H
H H
H
R R1
Bisphosphonate
C N H
NH2
CH 3
Amidines
C N H
CH 3
CH 3
H2N P
O
O
O (AMP)
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P t
H 3 N C l
C l N
C H 3 H
O C H 3
C
t r a n s - Z
N C
O C H 3 H
C H 3 P t
C l
C l
N C
O H 3 C H
H 3 C
t r a n s - E E
P t
N H 3
C l N
C l
H 3
t r a n splatin
P t
N H 3
C l N
C H 3 H
O C H 3
C
C l
c i s - Z
P t
C l
N C
O C H 3 H
C H 3
C l
N C
O C H 3 H
C H 3
c i s - E E c i splatin
P t
N H 3
C l N
C l
H 3
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Mean IC 50 ( m M) and Range (IC 50(least sens.) /IC 50(most sen.) ) in a panel of 6 human tumor cell lines
Complex IC 50 Range trans-EE 2.4 12 cis-EE 30 5 cis-DDP 4.6 25 trans-DDP 124 4
Antileukemic effect (P388 system) of platinum complexes
Complex in vitro in vivo
ID 50 ( m M) Dose % T/C
(mg/kg, qd 1-7) cis-DDP 2 0.6 211 cis-EE 7.7 4 150
- 8 toxic trans-EE 2.2 8 171
- 12 196
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ca07
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Control & dienPt
cisPt
Trans-EE
PRIMER EXTENSION ACTIVITY OF EXONUCLEASE-DEFICIENT KLENOW FRAGMENT OF DNA POLYMERASE I (KF-)
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INTERACTION OF PLATINATED DNA WITH DOMAINS A AND B OF HMGB1
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TERNARY DNA-PROTEIN COMPLEX FORMATION WITH: (A) THE SEQUENCE-SPECIFIC DNA-BINDING PROTEIN ECORI RESTRICTION ENDONUCLEASE,
(B) THE NON-SEQUENCE-SPECIFIC DNA-BINDING PROTEIN, LINKER HISTONE H1
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PRIMER EXTENSION ACTIVITY OF: (A) EXONUCLEASE-DEFICIENT KLENOW FRAGMENT OF DNA POLYMERASE I (KF-)
(B) REVERSE TRANSCRIPTASE FROM HUMAN IMMUNODEFICIENCY VIRUS 1 (RT HIV-1)
A
B
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EXCISION OF THE ADDUCTS OF PLATINUM COMPLEXES BY RODENT EXCINUCLEASE (THE PLATINATED 148 BP SUBSTRATE INCUBATED WITH CHO AA8 CFE FOR 40 MIN AT 30 °C)
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- Trans-compounds retain their carrier ligands when
they are bound to MT
- The rate of Zn(II) release from MT by different Pt(II)
compounds is diverse and may affect free Zn(II)-
related pathways (MTF1, p53, reactive oxygen species)
Knipp, Karotki, Chesnov, Natile, Sadler, Brabec, Vasak, J. Med. Chem., 2007
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Cytochrome c (cyt c)
Fe(III)
heme
Met65
His33 His26
His18
Met80
-Small heme protein found in the
mitochondrion
-It transfers electrons between
Complexes III and IV of the
respiratory chain
-It is a critical protein in the apoptotic
pathway
H3N
Pt
Cl
Cl
H3N
+ Cytc+ 2L
- NH3
- 2Cl
L
Pt
Cytc
L
H3N - L
L
Pt
H3N
Cytc
Casini, Gabbiani, Mastrobuoni, Pellicani, Intini, Arnesano, Natile, Moneti,
Francese, Messori, Biochemistry, 2007
Cl
Pt
Cl
ImE
ImE
+ Cytc
- Cl
Cl
Pt
Cytc
ImE
ImE- Cl
Pt
ImE
CytcImE
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Thioether can Serve as Intermediates for DNA Platination
by trans Geometry Antitumor Drug
C. Li, Z. Li, E. Sletten, F. Arnesano, M. Losacco, G. Natile, Y. Liu, Angew. Chem. 2009, 48, 8497
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Pt
ClE
Cl E
+ Met
high NaCl
low NaCl
Pt
ClE
E
Pt
E
EMet-S
S-Met
very fast
fast
Pt
E
EMet-S
GMP
N7-GMPMet-S
GMP
Effect of thioethers on DNA platination by trans-Platinum Complexes
C. Li, R. Huang, Y. Ding, E. Sletten, F. Arnesano, M. Losacco, G. Natile, Y. Liu, Inorg. Chem. 2011, 50, 8168
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0
100
200
300
IC50
(µM
)
cisplatin ampyplatincDPCP transplatin
A549RA549
MCF-7HeLa
ampyplatin
Pt
NH3
N
ClHMG
protein
PtCl
NH3
N
Cl
D. Xu, Y. Min, Q. Cheng, H. Shi, K. Wei, F. Arnesano, G. Natile, Y. Liu, J. Inorg. Biochem., in press
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Interesting chemistry of imine complexes: synthesis of cis-[PtCl2{Z-HN=C(But)NH2}2] and cis-[PtCl2NH3{Z-HN=C(But)NH2}]
Pt
Cl
L
Cl
N
C
But
Pt
Cl
L
Cl
N
H
NH2But
THF, 55 °C
NH3 aq (1:5)
L = NH3
N C ButL =
L = NH3
L= HN C
NH2
But
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Synthesis of trans-[PtCl2{Z-HN=C(But)NH2}2] and trans-[PtCl2NH3{Z-HN=C(But)NH2}]
Pt
Cl
Cl
L
N
C
But
Cl2 / CCl4
CHCl3, 25 ° C
Pt
Cl
Cl
Cl
Cl
L
N
C
But
CH2Cl2, 25 ° C
NH3 aq (1:5)
Pt
Cl
Cl
Cl
Cl
L
NH
NH2But
ascorbic acid (1:3)
H2O, 25 ° C
Pt
Cl
Cl
L
N
NH2But
H
L = NH3
N C ButL =
L = NH3
L= HN C
NH2
But
L = NH3
L= HN C
NH2
But
L = NH3
N C ButL =
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X-Ray crystal structure of cis-[PtCl2NH3{Z-HN=C(But)NH2}]
2.53 Å 3.4 Å 2.65 Å
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In vitro antitumor activity
S.D. = standard deviation IC50 values were calculated by probit analysis (P < 0.05, X2 test). Cells (3-8·104·ml-1) were treated for 48 hours with increasing concentrations of tested compounds dissolved in PEG400. Cytotoxicity was assessed by MTT test.
The prepared complexes were tested in vitro against 8 human cancer cell lines. The compound with trans configuration trans-1d is the most active. Both trans-1d or cis-1d are more active than cisplatin, while complexes trans-2d and cis-1d have cytotoxic activity comparable (or slightly lower) than that of cisplatin.
Compound IC50 (µM) ± S.D.
MCF-7 A375 A549 HCT-15 LoVo
cis-[PtCl2{Z-HN=C(NH2)But}2] 24.97±1.05 39.25±1.05 36.54±2.37 35.14±1.43 24.34±2.00
trans-[PtCl2{Z-HN=C(NH2)But}2] 23.86±3.63 27.12±2.74 24.57±2.01 36.33±1.93 27.05±1.64
cis-[PtCl2(NH3){Z-HN=C(NH2)But}] 18.25±1.24 17.26±2.41 15.32±2.61 16.98±2.21 15.55±1.38
trans-[PtCl2(NH3){Z-HN=C(NH2)But}] 7.15±1.27 7.54±1.87 6.62±1.45 11.51±1.75 7.12±2.12
[PtIII
2Cl2I2{HN=C(But)NH}2(NH3)2] (2SM189A) 27.67±3.14 23.46±2.38 19.64±3.26 18.52±3.16 21.16±3.04
trans-[PtCl4(NH3){Z-HN=C(But)NH2}]
(2SM106B) 46.64±3.15 41.12 ±3.75 56. 16±4.14 51.50±3.26 49.19±4.06
Cisplatin 25.18±2.58 18.28±1.05 25.45±1.09 20.31±2.13 15.9±1.50
cis-[PtCl2{Z-HN=C(But)NH
2}
2], cis-2d
trans-[PtCl2{Z-HN=C(But)NH
2}
2], trans-2d
trans-[PtCl2(NH
3){Z-HN=C(But)NH
2}
2], trans-1d
cis-[PtCl2(NH
3){Z-HN=C(But)NH
2}
2], cis-1d
trans-[PtCl4(NH
3){Z-HN=C(But)NH
2}
2], trans-1c
3e
Compound IC50 (µM) ± S.D.
MCF-7 A375 A549 HCT-15 LoVo
cis-[PtCl2{Z-HN=C(NH2)But}2] 24.97±1.05 39.25±1.05 36.54±2.37 35.14±1.43 24.34±2.00
trans-[PtCl2{Z-HN=C(NH2)But}2] 23.86±3.63 27.12±2.74 24.57±2.01 36.33±1.93 27.05±1.64
cis-[PtCl2(NH3){Z-HN=C(NH2)But}] 18.25±1.24 17.26±2.41 15.32±2.61 16.98±2.21 15.55±1.38
trans-[PtCl2(NH3){Z-HN=C(NH2)But}] 7.15±1.27 7.54±1.87 6.62±1.45 11.51±1.75 7.12±2.12
[PtIII
2Cl2I2{HN=C(But)NH}2(NH3)2] (2SM189A) 27.67±3.14 23.46±2.38 19.64±3.26 18.52±3.16 21.16±3.04
trans-[PtCl4(NH3){Z-HN=C(But)NH2}]
(2SM106B) 46.64±3.15 41.12 ±3.75 56. 16±4.14 51.50±3.26 49.19±4.06
Cisplatin 25.18±2.58 18.28±1.05 25.45±1.09 20.31±2.13 15.9±1.50
cis-[PtCl2{Z-HN=C(But)NH
2}
2], cis-2d
trans-[PtCl2{Z-HN=C(But)NH
2}
2], trans-2d
trans-[PtCl2(NH
3){Z-HN=C(But)NH
2}
2], trans-1d
cis-[PtCl2(NH
3){Z-HN=C(But)NH
2}
2], cis-1d
trans-[PtCl4(NH
3){Z-HN=C(But)NH
2}
2], trans-1c
Compound IC50 (µM) ± S.D.
MCF-7 A375 A549 HCT-15 LoVo
cis-[PtCl2{Z-HN=C(NH2)But}2] 24.97±1.05 39.25±1.05 36.54±2.37 35.14±1.43 24.34±2.00
trans-[PtCl2{Z-HN=C(NH2)But}2] 23.86±3.63 27.12±2.74 24.57±2.01 36.33±1.93 27.05±1.64
cis-[PtCl2(NH3){Z-HN=C(NH2)But}] 18.25±1.24 17.26±2.41 15.32±2.61 16.98±2.21 15.55±1.38
trans-[PtCl2(NH3){Z-HN=C(NH2)But}] 7.15±1.27 7.54±1.87 6.62±1.45 11.51±1.75 7.12±2.12
[PtIII
2Cl2I2{HN=C(But)NH}2(NH3)2] (2SM189A) 27.67±3.14 23.46±2.38 19.64±3.26 18.52±3.16 21.16±3.04
trans-[PtCl4(NH3){Z-HN=C(But)NH2}]
(2SM106B) 46.64±3.15 41.12 ±3.75 56. 16±4.14 51.50±3.26 49.19±4.06
Cisplatin 25.18±2.58 18.28±1.05 25.45±1.09 20.31±2.13 15.9±1.50
cis-[PtCl2{Z-HN=C(But)NH
2}
2], cis-2d
trans-[PtCl2{Z-HN=C(But)NH
2}
2], trans-2d
trans-[PtCl2(NH
3){Z-HN=C(But)NH
2}
2], trans-1d
cis-[PtCl2(NH
3){Z-HN=C(But)NH
2}
2], cis-1d
trans-[PtCl4(NH
3){Z-HN=C(But)NH
2}
2], trans-1c
3e
cis-[PtCl2(NH3){Z-HN=C(But)NH2}], cis-1d
trans-[PtCl2(NH3){Z-HN=C(But)NH2}], trans-1d
trans-[PtCl4(NH3){Z-HN=C(But)NH2}], trans-1c
cis-[PtCl2{Z-HN=C(But)NH2}2], cis-2d
trans-[PtCl2{Z-HN=C(But)NH2}2], trans-2d
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Cross-resistance profiles in ovarian cancer cells
S.D. = standard deviation IC50 values were calculated by probit analysis (P < 0.05, X2 test). Cells (3-8·104·ml-1) were treated for 48 hrs with increasing concentrations of tested compounds dissolved in PEG400. Cytotoxicity was assessed by MTT test. R.F.= IC50 resistant/ IC50 sensitive cells.
The RF value was about 7 times lower than that calculated for cisplatin. These results clearly indicated that these complexes possesses a different cross-resistance profile than that of cisplatin.
Human ovarian adenocarcinoma cells
Compound 2008
IC50 (µM) ± S.D.
C13
IC50 (µM) ± S.D.
R.F.
cis-[PtCl2{Z-HN=C(NH2)But}2] 22.34±1.97 23.54±2.14 1.1
trans-[PtCl2{Z-HN=C(NH2)But}2] 25.11±2.32 31.85±1.80 1.3
cis-[PtCl2(NH3){Z-HN=C(NH2)But}] 12.56±2.76 20.57±1.55 1.0
trans-[PtCl2(NH3){Z-HN=C(NH2)But}] 6.11±2.09 7.61±1.25 1.2
[PtIII
2Cl2I2{HN=C(But)NH}2(NH3)2]. 23.14±2.41 26.63±2.95 1.1
Trans-[PtCl4(NH3){Z-HN=C(But)NH2}] 46.52±3.18 63.34±4.25 1.4
Cisplatin 12.69±1.72 89.18±1.51 7.03
cis-[PtCl2{Z-HN=C(But)NH
2}
2], cis-2d
trans-[PtCl2{Z-HN=C(But)NH
2}
2], trans-2d
trans-[PtCl2(NH
3){Z-HN=C(But)NH
2}
2], trans-1d
cis-[PtCl2(NH
3){Z-HN=C(But)NH
2}
2], cis-1d
trans-[PtCl4(NH
3){Z-HN=C(But)NH
2}
2], trans-1c
3e
Human ovarian adenocarcinoma cells
Compound 2008
IC50 (µM) ± S.D.
C13
IC50 (µM) ± S.D.
R.F.
cis-[PtCl2{Z-HN=C(NH2)But}2] 22.34±1.97 23.54±2.14 1.1
trans-[PtCl2{Z-HN=C(NH2)But}2] 25.11±2.32 31.85±1.80 1.3
cis-[PtCl2(NH3){Z-HN=C(NH2)But}] 12.56±2.76 20.57±1.55 1.0
trans-[PtCl2(NH3){Z-HN=C(NH2)But}] 6.11±2.09 7.61±1.25 1.2
[PtIII
2Cl2I2{HN=C(But)NH}2(NH3)2]. 23.14±2.41 26.63±2.95 1.1
Trans-[PtCl4(NH3){Z-HN=C(But)NH2}] 46.52±3.18 63.34±4.25 1.4
Cisplatin 12.69±1.72 89.18±1.51 7.03
cis-[PtCl2{Z-HN=C(But)NH
2}
2], cis-2d
trans-[PtCl2{Z-HN=C(But)NH
2}
2], trans-2d
trans-[PtCl2(NH
3){Z-HN=C(But)NH
2}
2], trans-1d
cis-[PtCl2(NH
3){Z-HN=C(But)NH
2}
2], cis-1d
trans-[PtCl4(NH
3){Z-HN=C(But)NH
2}
2], trans-1c
3e
Human ovarian adenocarcinoma cells
Compound 2008
IC50 (µM) ± S.D.
C13
IC50 (µM) ± S.D.
R.F.
cis-[PtCl2{Z-HN=C(NH2)But}2] 22.34±1.97 23.54±2.14 1.1
trans-[PtCl2{Z-HN=C(NH2)But}2] 25.11±2.32 31.85±1.80 1.3
cis-[PtCl2(NH3){Z-HN=C(NH2)But}] 12.56±2.76 20.57±1.55 1.0
trans-[PtCl2(NH3){Z-HN=C(NH2)But}] 6.11±2.09 7.61±1.25 1.2
[PtIII
2Cl2I2{HN=C(But)NH}2(NH3)2]. 23.14±2.41 26.63±2.95 1.1
Trans-[PtCl4(NH3){Z-HN=C(But)NH2}] 46.52±3.18 63.34±4.25 1.4
Cisplatin 12.69±1.72 89.18±1.51 7.03
cis-[PtCl2{Z-HN=C(But)NH
2}
2], cis-2d
trans-[PtCl2{Z-HN=C(But)NH
2}
2], trans-2d
trans-[PtCl2(NH
3){Z-HN=C(But)NH
2}
2], trans-1d
cis-[PtCl2(NH
3){Z-HN=C(But)NH
2}
2], cis-1d
trans-[PtCl4(NH
3){Z-HN=C(But)NH
2}
2], trans-1c
3e
Human ovarian adenocarcinoma cells
Compound 2008
IC50 (µM) ± S.D.
C13
IC50 (µM) ± S.D.
R.F.
cis-[PtCl2{Z-HN=C(NH2)But}2] 22.34±1.97 23.54±2.14 1.1
trans-[PtCl2{Z-HN=C(NH2)But}2] 25.11±2.32 31.85±1.80 1.3
cis-[PtCl2(NH3){Z-HN=C(NH2)But}] 12.56±2.76 20.57±1.55 1.0
trans-[PtCl2(NH3){Z-HN=C(NH2)But}] 6.11±2.09 7.61±1.25 1.2
[PtIII
2Cl2I2{HN=C(But)NH}2(NH3)2]. 23.14±2.41 26.63±2.95 1.1
Trans-[PtCl4(NH3){Z-HN=C(But)NH2}] 46.52±3.18 63.34±4.25 1.4
Cisplatin 12.69±1.72 89.18±1.51 7.03
cis-[PtCl2{Z-HN=C(But)NH
2}
2], cis-2d
trans-[PtCl2{Z-HN=C(But)NH
2}
2], trans-2d
trans-[PtCl2(NH
3){Z-HN=C(But)NH
2}
2], trans-1d
cis-[PtCl2(NH
3){Z-HN=C(But)NH
2}
2], cis-1d
trans-[PtCl4(NH
3){Z-HN=C(But)NH
2}
2], trans-1c
3e
cis-[PtCl2(NH3){Z-HN=C(But)NH2}], cis-1d
trans-[PtCl2(NH3){Z-HN=C(But)NH2}], trans-1d
trans-[PtCl4(NH3){Z-HN=C(But)NH2}], trans-1c
cis-[PtCl2{Z-HN=C(But)NH2}2], cis-2d
trans-[PtCl2{Z-HN=C(But)NH2}2], trans-2d
Cisplatin