TY  - JOUR
AU  - Popović-Đorđević, Jelena
AU  - Vitnik, Vesna D.
AU  - Vitnik, Zeljko J.
AU  - Ivanović, Milovan
PY  - 2015
UR  - https://cherry.chem.bg.ac.rs/handle/123456789/2015
AB  - Glutarimides, 2,6-dioxopiperidines, are compounds that rarely occur in natural sources, but so far isolated ones exert widespread pharmacological activities, which makes them valuable as potential pharmacotherapeutics. Glutarimides act as androgen receptor antagonists, anti-inflammatory, anxiolytics, antibacterials, and tumor suppressing agents. Some synthetic glutarimide derivatives are already in use as immunosuppressive and sedative (e.g., thalidomide) or anxiolytics (buspirone) drugs. The wide applicability of this class of compounds, justify the interest of scientists to explore new pathways for its syntheses. General methods for synthesis of six-membered imide ring are presented in this paper. These methods include: a) reaction of dicarboxylic acids with ammonia or primary amine, b) reactions of cyclization: amido-acids, diamides, dinitriles, nitrilo-acids, amidonitriles, amido-esters, amidoacyl-chlorides or diacyl-chlorides, c) addition of carbon-monoxide on alpha,beta-unsaturated amides, d) oxidation reactions, e) Michael addition of active methylen compounds on methacrylamide or conjugated amides. Some of the described methods are used for closing glutarimide ring in syntheses of pharmacological active compounds sesbanimide and aldose reductase inhibitors (ARI). Analyses of the geometry, as well as, the spectroscopic analyses (NMR and FT-IR) of some glutarimides are presented due to their broad spectrum of pharmacological activity. To elucidate structures of glutarimides, geometrical parameters of newly synthesized tert-pentyl-1-benzyl-4-methyl-glutarimide-3-carboxylate (PBMG) are analyzed and compared with the experimental data from X-ray analysis for glutarimide. Moreover, molecular electrostatic potential (MEP) surface which is plotted over the optimized geometry to elucidate the reactivity of PBMG molecule is analyzed. The electronic properties of glutarimide derivatives are explained on the example of thalidomide. The Frontier Molecular Orbital (FMO) and their energies are presented, as well as the energy gap between them.
AB  - U ovom radu dat je prikaz metoda za sintezu šestočlanih cikličnih imida. Glutarimidi, 2,6-dioksopiperidini, su značajna biološka jedinjenja i deluju kao antagonisti adrenogenih receptora, antiinflamatorni agensi, anksiolitici, antivirotici, antibiotici i agensi koji sprečavaju rast pojedinih vrsta tumora. Prikazana je i njihova spektralna analiza (FT-IR i NMR), zbog potvrde stukture, kao i analiza graničnih molekulskih orbitala koja daje prikaz elektronskih svojstava ovih molekula, što je važno zbog njihove biološke aktivnosti. Da bi se predstavila hemijska reaktivnost glutarimida predstavljen je molekulski elektronski potencijal (MEP) iz prethodno optimizovane geometrije reprezentativnog primera terc-pentil-1- -benzil-4-metil-glutarimid-3-karboksilata (skraćenica PBMG). Elektronska svojstva su objašnjena na primeru talidomida.
PB  - Assoc Chemical Engineers Serbia, Belgrade
T2  - Hemijska industrija
T1  - Glutarimides: Biological Activity, General Synthetic Methods and Physicochemical Properties
T1  - Glutarimidi - biološka aktivnost, opšti postupci za sintezu i fizičko-hemijske karakteristike
VL  - 69
IS  - 5
SP  - 523
EP  - 536
DO  - 10.2298/HEMIND140701073P
ER  - 

@article{
author = "Popović-Đorđević, Jelena and Vitnik, Vesna D. and Vitnik, Zeljko J. and Ivanović, Milovan",
year = "2015",
abstract = "Glutarimides, 2,6-dioxopiperidines, are compounds that rarely occur in natural sources, but so far isolated ones exert widespread pharmacological activities, which makes them valuable as potential pharmacotherapeutics. Glutarimides act as androgen receptor antagonists, anti-inflammatory, anxiolytics, antibacterials, and tumor suppressing agents. Some synthetic glutarimide derivatives are already in use as immunosuppressive and sedative (e.g., thalidomide) or anxiolytics (buspirone) drugs. The wide applicability of this class of compounds, justify the interest of scientists to explore new pathways for its syntheses. General methods for synthesis of six-membered imide ring are presented in this paper. These methods include: a) reaction of dicarboxylic acids with ammonia or primary amine, b) reactions of cyclization: amido-acids, diamides, dinitriles, nitrilo-acids, amidonitriles, amido-esters, amidoacyl-chlorides or diacyl-chlorides, c) addition of carbon-monoxide on alpha,beta-unsaturated amides, d) oxidation reactions, e) Michael addition of active methylen compounds on methacrylamide or conjugated amides. Some of the described methods are used for closing glutarimide ring in syntheses of pharmacological active compounds sesbanimide and aldose reductase inhibitors (ARI). Analyses of the geometry, as well as, the spectroscopic analyses (NMR and FT-IR) of some glutarimides are presented due to their broad spectrum of pharmacological activity. To elucidate structures of glutarimides, geometrical parameters of newly synthesized tert-pentyl-1-benzyl-4-methyl-glutarimide-3-carboxylate (PBMG) are analyzed and compared with the experimental data from X-ray analysis for glutarimide. Moreover, molecular electrostatic potential (MEP) surface which is plotted over the optimized geometry to elucidate the reactivity of PBMG molecule is analyzed. The electronic properties of glutarimide derivatives are explained on the example of thalidomide. The Frontier Molecular Orbital (FMO) and their energies are presented, as well as the energy gap between them., U ovom radu dat je prikaz metoda za sintezu šestočlanih cikličnih imida. Glutarimidi, 2,6-dioksopiperidini, su značajna biološka jedinjenja i deluju kao antagonisti adrenogenih receptora, antiinflamatorni agensi, anksiolitici, antivirotici, antibiotici i agensi koji sprečavaju rast pojedinih vrsta tumora. Prikazana je i njihova spektralna analiza (FT-IR i NMR), zbog potvrde stukture, kao i analiza graničnih molekulskih orbitala koja daje prikaz elektronskih svojstava ovih molekula, što je važno zbog njihove biološke aktivnosti. Da bi se predstavila hemijska reaktivnost glutarimida predstavljen je molekulski elektronski potencijal (MEP) iz prethodno optimizovane geometrije reprezentativnog primera terc-pentil-1- -benzil-4-metil-glutarimid-3-karboksilata (skraćenica PBMG). Elektronska svojstva su objašnjena na primeru talidomida.",
publisher = "Assoc Chemical Engineers Serbia, Belgrade",
journal = "Hemijska industrija",
title = "Glutarimides: Biological Activity, General Synthetic Methods and Physicochemical Properties, Glutarimidi - biološka aktivnost, opšti postupci za sintezu i fizičko-hemijske karakteristike",
volume = "69",
number = "5",
pages = "523-536",
doi = "10.2298/HEMIND140701073P"
}

Popović-Đorđević, J., Vitnik, V. D., Vitnik, Z. J.,& Ivanović, M.. (2015). Glutarimides: Biological Activity, General Synthetic Methods and Physicochemical Properties. in Hemijska industrija
Assoc Chemical Engineers Serbia, Belgrade., 69(5), 523-536.
https://doi.org/10.2298/HEMIND140701073P

Popović-Đorđević J, Vitnik VD, Vitnik ZJ, Ivanović M. Glutarimides: Biological Activity, General Synthetic Methods and Physicochemical Properties. in Hemijska industrija. 2015;69(5):523-536.
doi:10.2298/HEMIND140701073P .

Popović-Đorđević, Jelena, Vitnik, Vesna D., Vitnik, Zeljko J., Ivanović, Milovan, "Glutarimides: Biological Activity, General Synthetic Methods and Physicochemical Properties" in Hemijska industrija, 69, no. 5 (2015):523-536,
https://doi.org/10.2298/HEMIND140701073P . .

TY  - THES
AU  - Vitnik, Vesna D.
PY  - 2009
UR  - http://eteze.bg.ac.rs/application/showtheses?thesesId=1053
UR  - https://fedorabg.bg.ac.rs/fedora/get/o:7729/bdef:Content/download
UR  - http://vbs.rs/scripts/cobiss?command=DISPLAY&base=70036&RID=37897999
UR  - http://nardus.mpn.gov.rs/123456789/3488
UR  - https://cherry.chem.bg.ac.rs/handle/123456789/2640
AB  - U оvој dоktоrskој disеrtаciјi ispitаn је, i еkspеrimеntаlnо i rаčunаrski, mеhаnizаm rеаkciје kеtоnа sа brоmоfоrmоm. Еkspеrimеntаlnо ispitајući оvај mеhаnizаm rаzviјеna је i оptimizоvаnа nоvа „one-pot“ mеtоdа zа sintеzu α,β-nеzаsićеnih kаrbоksilnih kisеlinа. Меtоdа оbuhvаtа rеаkciјu kеtоnа sа brоmоfоrmоm i litiјum-hidrоksidоm u аlkоhоlnim rаstvаrаčimа i vоdоm kао kо-rаstvаrаčеm kоја је kаtаlizоvаnа fаznim kаtаlizаtоrimа (TEBA, 18-C-6). Rеаkciја sе izvоdi nа sоbnој tеmpеrаturi u tоku 24 čаsа. Kоnjugоvаnе kisеlinе nаstајu iz cikličnih i аrоmаtičnih kеtоnа, dоk α-brоmkаrbоksilnе kisеlinе nаstајu iz еtil-4-оksо-pipеridin-1-kаrbоksilаtа i tеrc-butil-4-оksо-pipеridin-1-kаrbоksilаtа.Prоrаčuni su rаđеni nа sistеmu ciklоhеksаnоn-brоmоfоrm dа bi sе оbјаsnilо оtvаrаnjе еpоksidnоg prstеnа nuklеоfilnоm rеаkciјоm dihаlоgеnеpоksidа. U оvој rеаkciјi, nаstајаnjе dibrоmеpоksidа је klјučnа fаzа kоја оdrеđuје udео i stеrеоhеmiјu prоizvоdа. Svаkа rеаkciоnа shеmа sаdrži еpоksid kао klјučniintеrmеdiјеr. Prеtpоstаvlјеnа su i prоučаvаnа tri rеаkciоnа mеhаnizmа kојim nаstајu 1-ciklоhеksеnkаrbоksilnа kisеlinа, 1-hidrоksiciklоhеksаnkаrbоksilnа kisеlinа 1-brоmciklоhеksаnkаrbоksilnа kisеlinа, kао prоizvоdi. Prоrаčuni pоkаzuјu dа su svа tri rеаkciоnа putа еgzоtеrmnа. Rеаkciоni put kојim nаstаје 1¬ ciklо-hеksеnkаrbоksilnа kisеlinа kао prоizvоd је nајvеrоvаtniјi i nе uklјučuје intеrmеdiјеr.Svim sintеtizоvаnim kisеlinаmа оdrеđеnа је in vitro аntiprоlifеrаtivnа аktivnоst prеmа HeLa ćеliјskim liniјаmа. U nаmеri dа sе оdrеdi i nеpоžеlјnа citоtоksičnоst оvih јеdinjеnjа, оdrеđеnа је citоtоksičnа аktivnоst prеmа nеstimulisаnim i stimulisаnim ćеliјаmа PBMC. Vеćinа sintеtizоvаnih kisеlinа pоkаzuје slаbо аntiprоlifеrаtivnо dејstvо i imајu IC50 od 122,2 do 192 μM. Nајаktivniја је 1- ciklо-dоdеcеnkаrbоksilnа kisеlinа (IC50=122 μM prеmа HeLa ćеliјаmа). Ispitivаnе kisеlinе pоkаzuјu tаkоđе vеоmа slаbu аktivnоst prеmа ćеliјаmа limfоcitа (PBMC i PBMC+PHA) sа IC50 > 200 μM.
AB  - In this Thesis, the mechanism of reaction of bromoform with ketones was examined by experimental and computing. A new one-pot reaction for synthesis of α,β-unsaturated carboxylic acids was developed.Phase-transfer catalyzed (PTC) reactions of ketones with bromoform and aqueous lithium hydroxide in alcoholic solvent with TEBA or 18-C-6 as catalyst, result in the formation of α,β-unsaturated carboxylic acids. The reaction was performed at room temperature for 24 h. Corresponding conjugated acids were obtained from cyclic or aromatic ketones, while bromo acids were obtained from 4 oxo-piperidine-1-carboxylic acid ethyl ester and 4-oxo-piperidine-1-carboxylic acid tert-butyl ester.To elucidate the ring opening nucleophilic reactions of dihaloepoxides the extensive calculations were done on a model system cyclohexanone - bromoform. In this reaction the formation of dibromoepoxide is postulated as a key step determining distribution and stereochemistry of products. Every reaction scheme involves epoxide as a key intermediate. Three major products, 1¬ cyclohexene-1-carboxylic acid, 1-bromocyclohexane carboxylic acid and 1-hydroxy¬cyclohexane carboxylic acid could be obtained by three different competing reaction pathways. Calculations showed that all pathways are exothermic. Reaction pathway for synthesis of 1¬ cyclohexene-1-carboxylic acid is most convenient, and does not include any intermediate.The antiproliferative activity of obtained acids toward malignant cell lines was evaluated in this work, too. With the aim to determine the undesirable cytotoxic effect of investigated compounds on immune competent cells the normal peripheral blood mononuclear cells were used as target cells, too. The majority of synthesized conjugated acids exert moderate antiproliferative activity in vitro toward HeLa, having IC50 values from 122.20 to 192 μM. The most active compound is 1-cyclododecene-1-carboxylic acid, (IC50=122 μM toward HeLa cells). All examined compounds did not affect proliferation of healthy human blood peripheral mononuclear cells (PBMC and PBMC+PHA), IC50 > 200 Μm
PB  - Универзитет у Београду, Хемијски факултет
T2  - Универзитет у Београду
T1  - Eksperimentalno i računarsko proučavanje mehanizma reakcije ketona sa bromoformom
T1  - Experimental and computational study of the mechanism of the reaction of ketones with bromoform
UR  - https://hdl.handle.net/21.15107/rcub_nardus_3488
ER  - 

@phdthesis{
author = "Vitnik, Vesna D.",
year = "2009",
abstract = "U оvој dоktоrskој disеrtаciјi ispitаn је, i еkspеrimеntаlnо i rаčunаrski, mеhаnizаm rеаkciје kеtоnа sа brоmоfоrmоm. Еkspеrimеntаlnо ispitајući оvај mеhаnizаm rаzviјеna је i оptimizоvаnа nоvа „one-pot“ mеtоdа zа sintеzu α,β-nеzаsićеnih kаrbоksilnih kisеlinа. Меtоdа оbuhvаtа rеаkciјu kеtоnа sа brоmоfоrmоm i litiјum-hidrоksidоm u аlkоhоlnim rаstvаrаčimа i vоdоm kао kо-rаstvаrаčеm kоја је kаtаlizоvаnа fаznim kаtаlizаtоrimа (TEBA, 18-C-6). Rеаkciја sе izvоdi nа sоbnој tеmpеrаturi u tоku 24 čаsа. Kоnjugоvаnе kisеlinе nаstајu iz cikličnih i аrоmаtičnih kеtоnа, dоk α-brоmkаrbоksilnе kisеlinе nаstајu iz еtil-4-оksо-pipеridin-1-kаrbоksilаtа i tеrc-butil-4-оksо-pipеridin-1-kаrbоksilаtа.Prоrаčuni su rаđеni nа sistеmu ciklоhеksаnоn-brоmоfоrm dа bi sе оbјаsnilо оtvаrаnjе еpоksidnоg prstеnа nuklеоfilnоm rеаkciјоm dihаlоgеnеpоksidа. U оvој rеаkciјi, nаstајаnjе dibrоmеpоksidа је klјučnа fаzа kоја оdrеđuје udео i stеrеоhеmiјu prоizvоdа. Svаkа rеаkciоnа shеmа sаdrži еpоksid kао klјučniintеrmеdiјеr. Prеtpоstаvlјеnа su i prоučаvаnа tri rеаkciоnа mеhаnizmа kојim nаstајu 1-ciklоhеksеnkаrbоksilnа kisеlinа, 1-hidrоksiciklоhеksаnkаrbоksilnа kisеlinа 1-brоmciklоhеksаnkаrbоksilnа kisеlinа, kао prоizvоdi. Prоrаčuni pоkаzuјu dа su svа tri rеаkciоnа putа еgzоtеrmnа. Rеаkciоni put kојim nаstаје 1¬ ciklо-hеksеnkаrbоksilnа kisеlinа kао prоizvоd је nајvеrоvаtniјi i nе uklјučuје intеrmеdiјеr.Svim sintеtizоvаnim kisеlinаmа оdrеđеnа је in vitro аntiprоlifеrаtivnа аktivnоst prеmа HeLa ćеliјskim liniјаmа. U nаmеri dа sе оdrеdi i nеpоžеlјnа citоtоksičnоst оvih јеdinjеnjа, оdrеđеnа је citоtоksičnа аktivnоst prеmа nеstimulisаnim i stimulisаnim ćеliјаmа PBMC. Vеćinа sintеtizоvаnih kisеlinа pоkаzuје slаbо аntiprоlifеrаtivnо dејstvо i imајu IC50 od 122,2 do 192 μM. Nајаktivniја је 1- ciklо-dоdеcеnkаrbоksilnа kisеlinа (IC50=122 μM prеmа HeLa ćеliјаmа). Ispitivаnе kisеlinе pоkаzuјu tаkоđе vеоmа slаbu аktivnоst prеmа ćеliјаmа limfоcitа (PBMC i PBMC+PHA) sа IC50 > 200 μM., In this Thesis, the mechanism of reaction of bromoform with ketones was examined by experimental and computing. A new one-pot reaction for synthesis of α,β-unsaturated carboxylic acids was developed.Phase-transfer catalyzed (PTC) reactions of ketones with bromoform and aqueous lithium hydroxide in alcoholic solvent with TEBA or 18-C-6 as catalyst, result in the formation of α,β-unsaturated carboxylic acids. The reaction was performed at room temperature for 24 h. Corresponding conjugated acids were obtained from cyclic or aromatic ketones, while bromo acids were obtained from 4 oxo-piperidine-1-carboxylic acid ethyl ester and 4-oxo-piperidine-1-carboxylic acid tert-butyl ester.To elucidate the ring opening nucleophilic reactions of dihaloepoxides the extensive calculations were done on a model system cyclohexanone - bromoform. In this reaction the formation of dibromoepoxide is postulated as a key step determining distribution and stereochemistry of products. Every reaction scheme involves epoxide as a key intermediate. Three major products, 1¬ cyclohexene-1-carboxylic acid, 1-bromocyclohexane carboxylic acid and 1-hydroxy¬cyclohexane carboxylic acid could be obtained by three different competing reaction pathways. Calculations showed that all pathways are exothermic. Reaction pathway for synthesis of 1¬ cyclohexene-1-carboxylic acid is most convenient, and does not include any intermediate.The antiproliferative activity of obtained acids toward malignant cell lines was evaluated in this work, too. With the aim to determine the undesirable cytotoxic effect of investigated compounds on immune competent cells the normal peripheral blood mononuclear cells were used as target cells, too. The majority of synthesized conjugated acids exert moderate antiproliferative activity in vitro toward HeLa, having IC50 values from 122.20 to 192 μM. The most active compound is 1-cyclododecene-1-carboxylic acid, (IC50=122 μM toward HeLa cells). All examined compounds did not affect proliferation of healthy human blood peripheral mononuclear cells (PBMC and PBMC+PHA), IC50 > 200 Μm",
publisher = "Универзитет у Београду, Хемијски факултет",
journal = "Универзитет у Београду",
title = "Eksperimentalno i računarsko proučavanje mehanizma reakcije ketona sa bromoformom, Experimental and computational study of the mechanism of the reaction of ketones with bromoform",
url = "https://hdl.handle.net/21.15107/rcub_nardus_3488"
}

Vitnik, V. D.. (2009). Eksperimentalno i računarsko proučavanje mehanizma reakcije ketona sa bromoformom. in Универзитет у Београду
Универзитет у Београду, Хемијски факултет..
https://hdl.handle.net/21.15107/rcub_nardus_3488

Vitnik VD. Eksperimentalno i računarsko proučavanje mehanizma reakcije ketona sa bromoformom. in Универзитет у Београду. 2009;.
https://hdl.handle.net/21.15107/rcub_nardus_3488 .

Vitnik, Vesna D., "Eksperimentalno i računarsko proučavanje mehanizma reakcije ketona sa bromoformom" in Универзитет у Београду (2009),
https://hdl.handle.net/21.15107/rcub_nardus_3488 .

TY  - JOUR
AU  - Vitnik, ZJ
AU  - Kiricojevic, VD
AU  - Ivanović, Milovan
AU  - Juranić, Ivan O.
PY  - 2006
UR  - https://cherry.chem.bg.ac.rs/handle/123456789/528
AB  - To elucidate the ring opening, nucleophilic reactions of dihaloepoxides the extensive calculations were done on a model system cyclohexanone-bromoform. In this reaction, the formation of dihaloepoxide is postulated as a key step that determines the distribution and stereochemistry of products. Every reaction scheme involves epoxide as a key intermediate (1). Three major products (2, 3, and 4) can be obtained, in principle, by three different competing reaction pathways. The calculations showed that all the pathways are exothermic. Reaction pathway 1 is most convenient, it does not include any intermediate, and its energy is not much affected by the polarity of the medium. In pathways 2 and 3, the calculations showed the intermediates having a largely carbocationic character on the spiro junction carbon atom. The step in which these intermediates are formed determines the reaction rate. Because of the polarity of intermediates in pathways 2 and 3, the base concentration and polarity of solvent determine the balance of reaction pathways and the product yield. (c) 2005 Wiley Periodicals, Inc.
PB  - John Wiley & Sons Inc, Hoboken
T2  - International Journal of Quantum Chemistry
T1  - Molecular orbital investigation of various reaction pathways in reaction of ketones with bromoform
VL  - 106
IS  - 6
SP  - 1323
EP  - 1329
DO  - 10.1002/qua.20888
ER  - 

@article{
author = "Vitnik, ZJ and Kiricojevic, VD and Ivanović, Milovan and Juranić, Ivan O.",
year = "2006",
abstract = "To elucidate the ring opening, nucleophilic reactions of dihaloepoxides the extensive calculations were done on a model system cyclohexanone-bromoform. In this reaction, the formation of dihaloepoxide is postulated as a key step that determines the distribution and stereochemistry of products. Every reaction scheme involves epoxide as a key intermediate (1). Three major products (2, 3, and 4) can be obtained, in principle, by three different competing reaction pathways. The calculations showed that all the pathways are exothermic. Reaction pathway 1 is most convenient, it does not include any intermediate, and its energy is not much affected by the polarity of the medium. In pathways 2 and 3, the calculations showed the intermediates having a largely carbocationic character on the spiro junction carbon atom. The step in which these intermediates are formed determines the reaction rate. Because of the polarity of intermediates in pathways 2 and 3, the base concentration and polarity of solvent determine the balance of reaction pathways and the product yield. (c) 2005 Wiley Periodicals, Inc.",
publisher = "John Wiley & Sons Inc, Hoboken",
journal = "International Journal of Quantum Chemistry",
title = "Molecular orbital investigation of various reaction pathways in reaction of ketones with bromoform",
volume = "106",
number = "6",
pages = "1323-1329",
doi = "10.1002/qua.20888"
}

Vitnik, Z., Kiricojevic, V., Ivanović, M.,& Juranić, I. O.. (2006). Molecular orbital investigation of various reaction pathways in reaction of ketones with bromoform. in International Journal of Quantum Chemistry
John Wiley & Sons Inc, Hoboken., 106(6), 1323-1329.
https://doi.org/10.1002/qua.20888

Vitnik Z, Kiricojevic V, Ivanović M, Juranić IO. Molecular orbital investigation of various reaction pathways in reaction of ketones with bromoform. in International Journal of Quantum Chemistry. 2006;106(6):1323-1329.
doi:10.1002/qua.20888 .

Vitnik, ZJ, Kiricojevic, VD, Ivanović, Milovan, Juranić, Ivan O., "Molecular orbital investigation of various reaction pathways in reaction of ketones with bromoform" in International Journal of Quantum Chemistry, 106, no. 6 (2006):1323-1329,
https://doi.org/10.1002/qua.20888 . .