The Synthesis and Characterization of a Novel (E,E)-Dioxime and its Mono- and Heterotrinuclear Complexes Containing an 18-Membered Dioxadithiadiazamacrocycle

The novel (E,E)-dioxime, 5,6:17,18-dibenzo-11,12-(4-nitrobenzo)-2,3-bis(hydroxyimino)-7,16-dithia-10,13-dioxa-1,4-diazacyclooctadecane) (H2L), has been synthesized from reaction of (E,E)-dichloroglyoxime (1) with 2,3:14,15-dibenzo 8,9-(4-nitrobenzo)-4,13-dithia-7,10-dioxa-1,16-diazahegzadecane (2). The mononuclear Co(III) complex (4) of this dioxime was prepared by oxidation of the cobalt (II) complex. The -capped Co(III) complex (5) was synthesized by using a precursor Co(III) complex and boron trifluoride dietherate. The heterotrinuclear complexes (6) and (7) were prepared by reaction of (5) with NiCl2·6H2O and CdCl2·H2O, respectively. In addition, the homotrinuclear Cu(II) complex (8), has also been prepared by the reaction of this dioxime with CuCl2·H2O. The structures of the dioxime and its complexes were identified by using elemental analysis, 1H- and 13C-NMR, IR, and mass spectral data.

Rihmamatolääkkeiden vaikutuskohteita. Betuliinin johdannaisia mahdollisiksi uusiksi yhdisteiksi

Jokisokeus eli onkosersiaasi on ihmisen loismatotauti, jota aiheuttaa Onchocerca volvulus -rihmamato. Tautia esiintyy trooppisilla alueilla Afrikassa ja Latinalaisessa Amerikassa. Tartunnan saaneita on noin 37 miljoonaa. Jokisokeus ilmenee iho- ja silmäoireina. Oireet johtuvat loisen nuorimmista muodoista eli mikrofilarioista. Jokisokeutta vastaan on käyty jakamalla lähinnä mikrofilarioihin tehoavaa ivermektiiniä. Tarvetta olisi lääkkeelle, joka tappaisi aikuiset madot tai steriloisi naaraat. Rokote olisi vielä parempi vaihtoehto. Antibiootit on uusi hoitokeino, sillä O. volvuluksella on elintärkeänä symbionttina Wolbachia-bakteeri. Doksisykliini tappaa vähintään 60 prosenttia aikuisista madoista ja steriloi naaraita, mutta kuuri kestää viikkoja. Yksi lupaava yhdiste on emodepsidi, jolla on loismatolääkkeille uusi vaikutusmekanismi. Rihmamatolääkkeiksi on testattu lukuisia yhdisteitä. Jotkut niistä inhiboivat entsyymejä, joilla madot kiertävät ihmisen immuunipuolustusta. Toiset häiritsevät neljä kertaa tapahtuvaa nahanvaihtoa. Hyvä lääkkeiden vaikutuskohde on loiselle välttämätön mutta puuttuu nisäkkäiltä. Betuliini on triterpeeni, jota on runsaasti koivun tuohessa. Betuliini ja monet sen johdannaiset ovat farmakologisesti aktiivisia yhdisteitä, joita tutkitaan etenkin syöpä- ja HIV-lääkkeiksi. Helsingin yliopiston lääkekemian ryhmä on syntetisoinut ja tutkinut lukuisia johdoksia. Jotkin niistä ovat lupaavia esimerkiksi Leishmania-alkueläimiin, Chlamydia pneumoniae -bakteeriin ja alfaviruksiin. Siksi yhdisteitä kannattaisi tutkia muihinkin taudinaiheuttajiin, kuten rihmamatoihin. Sekä Wolbachialla että C. pneumoniaella on sama lipidisynteesireitti, joka on kummallekin elintärkeä. Betuliinista syntetisoitiin johdoksia, joissa betuliinin alkoholeja on hapetettu karbonyyleiksi ja joihin on liitetty typpiheterorengas. Sekä Leishmania donovani että L. braziliensis -tutkimuksissa tehokkain oli formyylibetuliinin heterosykli. Vaikka valmistettuja yhdisteitä ei ole tutkittu rihmamatotesteissä, jatkossa voisi syntetisoida johdannaisia, joissa karbonyylien tilalla on typpirakenteita, koska C. pneumoniaehen hyvin tehonneessa yhdisteessä betuliinin OH-ryhmien tilalla on oksiimi.

Bimetallic olefin polymerization catalysis : mechanisms and applications of proximal effects

This dissertation covers progress with bimetallic polymerization catalysts. The complexes we have designed were aimed at expanding the capabilities of homogeneous polymerization catalysts by taking advantage of multimetallic effects. Such effects were examined in group 4 and group 10 bimetallic complexes; proximity and steric repulsion were determined to be major factors in the effects observed.

Chapters 2 and 3 introduce the rigid p-terphenyl dinucleating framework utilized in most of this thesis. The permethylation of the central arene allows for the separation of syn and anti atropisomers of the terphenyl compounds. Kinetic studies were carried out to examine the isomerization of the dinucleating bis(salicylaldimine) ligand precursors. Metallation of the syn and anti bis(salicylaldimine)s using Ni(Me)2(tmeda) and excess pyridine afforded dinickel bisphenoxyiminato complexes with a methyl and a pyridyl ligand on each nickel. The syn and anti atropisomers of the dinickel complexes were structurally characterized and utilized in ethylene and ethylene/α-olefin polymerizations. Monometallic analogues were also synthesized and tested for polymerization activity. Ethylene polymerizations were performed in the presence of primary, secondary, and tertiary amines – additives that generally deactivate nickel polymerization catalysts. Inhibition of this deactivation was observed with the syn atropisomer of the bimetallic species, but not with the anti or monometallic analogues. A mechanism was proposed wherein steric repulsion of the substituents on proximal nickel centers disfavors simultaneous ligation of base to both of the metal centers. The bimetallic effect has been explored with respect to size and binding ability of the added base.

Chapter 4 presents the optimization of the bisphenoxyimine ligand synthesis and synthesis of syn and anti m-terphenyl analogues. Metallation with NiClMe(PMe₃)₂ yielded phosphine-ligated dinickel complexes, which have been structurally characterized. Ethylene/1-hexene copolymerizations in the presence of amines using Ni(COD)₂ as a phosphine scavenger showed significantly improved activity relative to the pyridine-ligated analogues. Incorporation of amino olefins in copolymerizations with ethylene was accomplished, and a mechanism was proposed based on proximal effects. Copolymerization trials with a variety of amino olefins and ethylene/1-hexene/amino olefin terpolymerizations were completed.

Early transition metal complexes based on the rigid p-terphenyl framework were designed with a variety of donor sets (Chapter 5 and Appendix B). Chapter 5 details the use of syn dizirconium di[amine bis(phenolate)] complexes for isoselective 1-hexene and propylene homopolymerizations. Ligand variation and monometallic complexes were studied to determine the origin of tacticity control. A mechanistic proposal was presented based on the symmetry at zirconium and the steric effects of the proximal metal center. Appendix B covers additional studies of bimetallic early transition metal complexes based on the p-terphenyl. Dititanium, dizirconium, and asymmetric complexes with bisphenoxyiminato ligands and derivatives thereof were targeted. Progress toward the synthesis of these complexes is described along with preliminary polymerization data. 1-hexene/diene copolymerizations and attempted polymerizations in the presence of ethers and esters with the syn dizirconium di[amine bis(phenolate)] complexes demonstrate the potential for further applications of this system in catalysis.

Appendix A includes work toward palladium catalysts for insertion polymerization of polar monomers. These complexes were based on dioxime and diimine frameworks with the intent of binding Lewis acidic metals at the oxime oxygens, at pendant phenolic donors, or at pendant aminediol moieties. The synthesis and structural characterization of a number of palladium and Lewis acid complexes is presented. Due to the instability of the desired species, efforts toward isolation of the desired complexes proved unsuccessful, though preliminary ethylene/methyl acrylate copolymerizations using in situ activation of the palladium species were attempted.