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    Synthesis,Structure and Antitumor Activity of Organotin 1,1′-Methylenebis(1H-pyrazole-4-carboxylates)

    2020-04-16 09:45:14XIEYunFuTANGLiangFu

    XIE Yun-Fu TANG Liang-Fu

    (1College of Science,Tianjin University of Science and Technology,Tianjin 300457,China)

    (2State Key Laboratory of Elemento-Organic Chemistry,College of Chemistry,Nankai University,Tianjin 300071,China)

    Abstract:Four triorganotin 1,1′-methylenebis(1H-pyrazole-4-carboxylates)(CH2(PzCO2SnR3)2,R=Ph(1),cyclohexyl(2),Et(3),n-Bu(4))have been synthesized via the reaction of R3SnOH or(R3Sn)2O with 1,1′-methylenebis(1H-pyrazole-4-carboxylic acid).All these complexes were characterized by elemental analysis,IR and multinuclear NMR (1H,13C and119Sn).The structures of 1 and 3 have been confirmed by the X-ray single crystal diffraction analysis,suggesting that the pyrazoyl nitrogen atoms don′t participate in coordination to the tin atoms,and the carboxylate groups show considerably different coordination modes in these two complexes.In addition,complex 1 only shows a dinuclear structure,while complex 3 forms a 2D-coordination polymer with 32-membered macrocyclic units through the bridging carboxylate oxygen atoms.The cytotoxic activity of these complexes for MCF-7 and A549 cells was tested,showing that they displayed good cytotoxicities for these two cells in vitro.CCDC:1949278,1;1949279,3.

    Keywords:N ligand;organotin carboxylate;X-ray crystal structure;antitumor activity

    0 Introduction

    The chemistry of organotin carboxylates continues to be an active research area in recent years because of their versatile structures[1]as well as significant biological activities[2],especially anticancer activity[3-4].Recently,the synthesis of organotin carboxylates of multifunctional carboxylic acids with additional O,S or N donor groups is drawing more and more attention due to the functionalized carboxylic acids showing variable coordination modesaswellasnotable bioactivities[5-10].Among these functionalized carboxylic acids,pyrazolyl carboxylic acids have attracted a special interest owing to the important biological activity of pyrazole derivatives[11]as well as the good coordinating ability of pyrazole[12].Many organotin carboxylates derived from pyrazolyl carboxylic acids have been synthesized and characterized,which demonstrated fascinating structural features and excellent biological activities[13-21],such as antitumor[21]and antifungal activities[14].Polycarboxylic acids have been extensively used as multifunctional ligands in designing novel and fascinating supramolecular structures with special properties[22].Many organotin polycarboxylates based on di-,tri-and tetracarboxylic acids have been reported in the literatures[23-28],which display interesting supramolecular architectures.It is known that the structures and biochemical behaviors of organotin carboxylates significantly depend on the type of the substituents attached to the tin atom and also on the kind of carboxylate ligands[3-4].As an extension of our investigations on biologically active organotin derivatives[10],we herein report the synthesis,structure and antitumor activity in vitro of organotin 1,1′-methylenebis(1H-pyrazole-4-carboxylates).

    1 Experimental

    IR spectra were obtained from a Tensor 27 spectrometerasKBrdiscs.NMR spectra were obtained with a Bruker 400 spectrometer,and the chemical shifts were reported with respect to reference standards(internal SiMe4for1H and13C NMR spectra,external SnMe4for119Sn NMR).Elemental analyses were carried out on an Elementar Vario EL analyzer.HR mass spectra were carried out on a Varian QFTESI spectrometer.Melting points were measured with an X-4 digital micro melting-point apparatus and were uncorrected.Ethyl 1H-pyrazole-4-carboxylate and organotin reagents are commercially available and used as received without further purification.

    1.1 Synthesis of CH2(PzCO2H)2(L)

    Powdery potassium hydroxide (85%,3.29 g,50 mmol)was added to the solution of ethyl 1H-pyrazole-4-carboxylate(7 g,50 mmol)in CH3CN(100 mL).The reaction mixture was stirred and heated to reflux,then the solution of CH2Br2(4.35 g,25 mmol)in CH3CN(20 mL)was added dropwise.After the completion of addition,the reaction mixture was continuously stirred and refluxed for 6 h.The solvent was removed in vacuo to give a white solid,which was dissolved in the mixed solvent of CH2Cl2(50 mL)and H2O(50 mL).The organic phase was separated,washed with H2O (2×30 mL)and dried over Na2SO4.Removing the solvent,the residual was recrystallized from hexane to afford white crystals of diethyl 1,1′-methylenebis(1H-pyrazole-4-carboxylate).Yield:68%(5 g).

    Diethyl 1,1′-methylenebis(1H-pyrazole-4-carboxylate)(2.34 g,8 mmol)was added to the solution of NaOH(3.20 g,80 mmol)in H2O (100 mL).The reaction mixture was stirred and heated at reflux for 4 h.After cooling to room temperature,the pH value was adjusted to 5 by dilute hydrochloric acid (3 mol·L-1)to give white solids,which were filtered off,washed with H2O and dried in air to afford 1,1′-methylenebis(1H-pyrazole-4-carboxylic acid)(L).Yield:90%(1.69 g).1H NMR(DMSO-d6):δ 6.52(s,2H),7.88(s,2H),8.57(s,2H),12.58(s,2H).13C NMR(DMSO-d6):δ 65.0,116.4,135.1,142.2,163.9.IR(cm-1):ν(OH)3 110~2 574(br),ν(C=O)1 697.HRMS(ESI,m/z):235.047 0(Calcd.for C9H7N4O4:235.047 3,[M-H]-).

    1.2 Synthesis of CH2(PzCO2SnPh3)2(1)

    Compound L (0.12 g,0.5 mmol)and Ph3SnOH(0.37 g,1 mmol)were added to anhydrous benzene(30 mL),and the reaction mixture was stirred and heated at reflux for 6 h.Removing the solvent in vacuo,the residual was recrystallized from benzene/hexane to give colorless crystals of 1,which was dried in vacuo before the characterization work.Yield:82%(0.38 g),m.p.89~91℃.1H NMR(CDCl3):δ 6.22(s,2H),7.42~7.47(m,18H),7.73~7.76(m,12H),7.95(s,2H),8.15(s,2H).13C NMR(CDCl3):δ 65.7,117.0,129.0(3J(13C-119/117Sn)=63.7 Hz),130.2,133.9,136.9(2J(13C-119/117Sn)=48.2 Hz),138.1,143.3,168.3.119Sn NMR(CDCl3):δ-106.3.IR(cm-1):νas(COO)1 634,νs(COO)1 378.Anal.Calcd.for C45H36N4O4Sn2(%):C 57.85,H 3.88,N 6.00;Found(%):C 57.43,H 4.25,N 6.34.

    1.3 Synthesis of CH2(PzCO2Sn(C6H11)3)2(2)

    This complex was obtained similarly using tricyclohexyltin hydroxide instead of Ph3SnOH as described above for 1.Yield:93%,m.p.164~166℃.1H NMR(CDCl3):δ 1.32~1.41(m,18H),1.68~1.75(m,30H),1.90~2.02(m,18H),6.27(s,2H),7.95(s,2H),8.10(s,2H).13C NMR(CDCl3):δ 26.9,28.9(3J(13C-119/117Sn)=64.3 Hz),31.1(2J(13C-119/117Sn)=13.9 Hz),33.9(1J(13C-119/117Sn)=337.5,323.4 Hz),65.6,118.6,133.2,143.0,167.0.119Sn NMR (CDCl3):δ 19.2.IR (cm-1):νas(COO)1 644, νs(COO)1 372.Anal.Calcd.for C45H72N4O4Sn2(%):C 55.69,H 7.48,N 5.77;Found(%):C 55.46,H 7.64,N 5.88.

    1.4 Synthesis of CH2(PzCO2SnEt3)2(3)

    This complex was obtained similarly using(Et3Sn)2O instead of Ph3SnOH as described above for 1,but in a 1∶1 molar ratio.Yield:90%,m.p.93~95℃.1H NMR(CDCl3):δ 1.20~1.42(m,30H),6.27(s,2H),7.93(s,2H),8.10(s,2H).13C NMR(CDCl3):δ 8.0(1J(13C-119/117Sn)=365.8,349.9 Hz),9.9(2J(13C-119/117Sn)=25.1 Hz),65.7,118.3,133.3,143.9,167.5.119Sn NMR(CDCl3):δ 114.0.IR(cm-1):νas(COO)1 595,νs(COO)1 375.Anal.Calcd.for C21H36N4O4Sn2(%):C 39.05,H 5.62,N 8.67;Found(%):C 39.31,H 5.36,N 8.46.

    1.5 Synthesis of CH2(PzCO2Sn(n-Bu)3)2(4)

    This complex was obtained similarly using(n-Bu3Sn)2O instead of Ph3SnOH as described above for 1,but in a 1∶1 molar ratio.Hexane was used as the solvent in recrystallization.Yield:79%,m.p.73~75℃.1H NMR(CDCl3):δ 0.91(t,J=7.3 Hz,18H),1.28~1.39(m,24H),1.59~1.67(m,12H),6.25(s,2H),7.90(s,2H),8.06 (s,2H).13C NMR (CDCl3):δ 13.6,16.5(1J(13C-119/117Sn)=352.7,341.6 Hz),27.0(3J(13C-119/117Sn)=64.5 Hz),27.8(2J(13C-119/117Sn)=20.5 Hz),65.6,118.5,133.2,142.9,167.3.119Sn NMR (CDCl3):δ 115.4.IR(cm-1):νas(COO)1 593,νs(COO)1 375.Anal.Calcd.for C33H60N4O4Sn2(%):C 48.68,H 7.43,N 6.88;Found(%):C 48.45,H 7.33,N 7.04.

    1.6 Crystal structure determination

    Crystals of 1 and 3 suitable for X-ray analysis were obtained by slowly cooling their hot benzene/hexane solutions.All intensity data were collected with a SuperNova diffractometer using Mo Kα radiation(λ=0.071 073 nm).The structures were solved by direct methods and difference Fourier map using SHELXS of the SHELXTL package and refined with SHELXL[29]by full-matrix least-squares on F2.The SQUEEZE of the PLATON software[30]was used in the refinement of the structures of 1 and 3.The highly disordered solvents(ca.1.375 hexane molecules for 1 and 3 according to the number of removed electrons,respectively)in the voids were removed by the SQUEEZE process.All non-hydrogen atoms were refined with anisotropic displacement parameters.Hydrogen atoms were added geometrically and refined with riding model position parameters.A summary of the fundamental crystal data for these two complexes is listed in Table 1.

    CCDC:1949278,1;1949279,3.

    Table 1 Crystallographic data and refinement parameters for complexes 1 and 3

    Continued Table 1

    2 Results and discussion

    2.1 Synthesis of complexes 1~4

    1,1′-Methylenebis(1H-pyrazole-4-carboxylic acid)(L)was synthesized in the hydrolysis of its ethyl ester,which was obtained via the coupling reaction of ethyl 1H-pyrazole-4-carboxylate with CH2Br2under basic condition.Reaction of L with organotin oxide or organotin hydroxide gave organotin 1,1′-methylenebis(1H-pyrazole-4-carboxylates)(1~4) in good yields(Scheme 1).These complexes showed good soluble in chlorinated solvents.Complexes 1~4 have been characterized by IR and NMR(1H,13C and119Sn)spectra as well as elemental analyses.It should be pointed out that the vacuum-dried samples for above-mentioned characterization do not contain any solvent,though the single crystal samples contain partially crystallized solvents.

    In the IR spectra,the strong and broad band in L ascribed to the carboxyl group disappeared in complexes 1~4.Moreover,the carbonyl stretching frequencies in complexes 1~4 were significantly lower than that in L.These infrared absorption characteristics indicate the formation of the Sn-O bonds[31].In addition,the asymmetric stretching vibrations of the carboxylate group in 1 (1 634 cm-1)and 2 (1 644 cm-1)were significantly higher than those in 3(1 595 cm-1)and 4(1 593 cm-1),revealing that the carboxylate groups in these complexes possibly show different coordination modes[31-32].The larger values of Δν(νas(COO)-νs(COO))for 1(256 cm-1)and 2(272 cm-1)compared with those of 3(220 cm-1)and 4(218 cm-1)imply the monodentate manner of the carboxylate group to the tin atom in 1 and 2 as well as the corresponding bidentate manner in 3 and 4[31-32].The1H NMR spectra of 1~4 exhibited the expected integral values and chemical shifts.The13C NMR spectra of 2~4 clearly showed the1J(13C-119/117Sn)coupling constant,which is consistent with the characteristic of 4-coordinated trialkyltin compounds(325~390 Hz)[33].The119Sn NMR chemical shifts of 1~4 are also compared with those values reported in the corresponding 4-coordinated triphenyltin,tricyclohexyltin,triethyltin and tri(n-butyl)tin carboxylates[1].

    Scheme 1 Synthesis of complexes 1~4

    2.2 Crystal structures of complexes 1 and 3

    The molecular structures of 1 and 3 have been confirmed by X-ray crystallography,and presented in Fig.1 and 2,respectively.The selected bond distances and angles are listed in Table 2.Fig.1 shows that the carboxylate group exhibits a monodentate coordination mode in 1 as above-mentioned by its IR spectrum,leading to each tin atom with a four-coordinated distorted tetrahedron geometry.The pyrazolyl nitrogen atoms do not coordinate to the tin atoms,possibly owing to the carboxylate groups on the pyrazolyl rings decreasing the donating ability of the pyrazolyl nitrogen atoms[13].The non-bond Sn…O distances(Sn1…O2 0.267 4(2)and Sn2…O4 0.284 1(2)nm)are considerably shorter than the sum of the van der Waals radii for the Sn and O atoms of 0.357 nm[34],suggesting relatively strong non-bonded Sn…O interactions in 1.As shown in Fig.2,the coordination mode of the carboxylate groups in 3 is significantly different from that in 1.The carboxylate groups act as a bridging bidentate ligand in 3,consistent with its IR spectrum.Thiscomplexformsa2D-coordination polymer with 32-membered macrocyclic units through the carboxylate oxygen atoms (Fig.3).Each tin atom adopts a five-coordinated distorted trigonal bipyramidal geometry with the electronegative oxygen atoms at the apical positions.The covalent Sn-O bond distances in bridging bidentate carboxylate groups,such as Sn2-O2(0.216 2(9)nm),are shorter than the covalentcoordinated Sn-O bond distances,such as Sn1-O1(0.245 0(8)nm).However,all these Sn-O bond distances fall in the typical range for triorganotin carboxylates[1].It is worthy of note that the polymeric structure of complex 3 in solid would break down in solution owing to the intermolecular weak Sn…O interactions,as indicated by its13C and119Sn NMR spectra.

    Fig.1 Molecular structure of 1 with 30%probability d isplacement ellipsoids

    Fig.2 Asymmetrical structural unit of 3 with 30%probability displacement ellipsoids

    Fig.3 Two dimensional supramolecular structure of 3

    Table 2 Selected bond distances(nm)and angles(°)for complexes 1 and 3

    2.3 Cytostatic activity evaluation

    The cytotoxic activity of dried complexes 1~4 and the free acid (L)for MCF-7 and A549 cells in vitro was assayed by the MTT method[35],and the data of IC50are summarized in Table 3.From these results,it is observed that the free acid has scarcely any activity against MCF-7 and A549 cells,butall complexes display higher activity to these two cells than cisplatin,especially complex 1,which is a promising candidate against these two cells.

    Table 3 IC50values of complexes 1~4 for MCF-7 and A549 cells μmol·L-1

    3 Conclusions

    In conclusion,four triorganotin 1,1′-methylenebis(1H-pyrazole-4-carboxylates)have been synthesized and characterized.The crystal structural analyses of two of them reveal that the carboxylate groups show considerably different coordination modes in these complexes.The carboxylate group acts as a monodentate ligand in the triphenyltin complex,while a bridging bidentate coordinate mode is observed in the triethyltin complex. Moreover, the triphenyltin complex only shows a dinuclear structure,while the triethyltin complex forms a 2D supramolecular architecture with 32-membered macrocyclic units.All complexes,especially the triphenyltin complex,display good cytotoxicities for MCF-7 and A549 cells in vitro.

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