Synthesis of New Naphthyl Aceto Hydrazone-Based Metal Complexes: Micellar Interactions, DNA Binding, Antimicrobial, and Cancer Inhibition Studies.

Fawad Ahmad,Nouf Abubakr Babteen,Syed Ahmad Tirmizi,Sadia Noor,Muneera D F Alkahtani,Seraj Omar Alzahrani,Afnan M Alnajeebi,Rabia Ayub,Walla Alelwani,Muhammad Babar Taj,Heba Alshater,Azzah M Bannunah

doi:10.3390/molecules26041044

Abstract

In the present study, naphthyl acetohydrazide (HL) ligand was prepared and used for the synthesis of new six amorphous transition metal (Co(II), Ni(II), Cu(II), Zn(II), Pb(II), Cd(II)) complexes. All the compounds were characterized by elemental analysis, UV-vis, FT-IR, 1H- and 13C-NMR, and Matrix-Assisted Laser Desorption Ionization (MALDI). The solubilization study was carried out by estimating the interaction between the metal complexes with surfactants viz. sodium stearate (SS) and Cetyltrimethylammonium bromide (CTAB). UV-Visible spectroscopy was employed to determine partitioning and binding parameters, whereas electrical conductivity measurements were employed to estimate critical micellar concentration (CMC), the extent of dissociation, and free energy of micellization. The CT-DNA interaction of synthesized compounds with DNA represents the major groove binding. The synthesized ligand and metal complexes were also tested against bacterial and fungal strains and it has been observed that Cu(II) complex is active against all the strains except Candida albicans, while Cd(II) complex is active against all bacterial and fungal strains except Pseudomonas. Among all compounds, only the Pd(II) complex shows reasonable activity against cervical cancer HeLa cell lines, representing 97% inhibition.

Highlights

Metal-based drugs have a strong therapeutic effect and it has been observed that incorporation of metals increases the bioactivity of bioactive ligands and
The synthesized complexes were evaluated for their solubilization in ionic surfactants viz. sodium stearate and Cetyltrimethylammonium bromide (CTAB)
The complexes showed greater solubilization on the cationic micelles of CTAB as compared to sodium stearate (SS) owing to the electrostatic interactions of positively charged head group of CTAB and the negatively charged hydroxyl groups in the complexes

Summary

Introduction

Metal-based drugs have a strong therapeutic effect and it has been observed that incorporation of metals increases the bioactivity of bioactive ligands and. Metal-based drugs have a strong therapeutic effect and it has been observed that incorporation of metals increases the bioactivity of bioactive ligands and signsiigfinciafinctalyntelynheannhcaensceths ethpehpahrmaramcaocloogloicgaicl aploptoetnetniatilaol foifniancatcitvive elilgigaannddss[1[1].].MMeetatal lccoooorrddiinnaa-ttiioonn iiss oonnee oofftthheemmooststefeffefcetcutualatlatcatcictisctsotpolapnlalnonlogn-agc-tainctginogr solrowslo-rwel-eraeslienagsidnrgudgsru[2g,s3][.2F,3o]r. .TThheeaammpphhipiphhiliilcicnnaatuturreeooffssuurrffaacc-ttaannttss hheellppss ttoo accommodate the metal complexes inside the micelles. Such interactions of mmeettaall ccoommpplleexxees sshhooww ssyynneerrgistic iinnteractions of bbiioommembranes and drugs [[114–16]. IStyo.luSboilliuzbaitliioznatoiornmoircmelilcaerllianrteinratecrtaiocntioonf obfiobaioctaicvteivceocmopmopuonudnsdiss ias acrcurcuicailaal nanddddeecicsiisviveerrooleleppllaayyeerriinn mmaannyy pprroocceesssseess aatt bbiioollooggiiccaall aanndd iinndduussttrriiaall lleevveellss. TThhee mmeettaall ccoommpplleexxeess ppaarrttiittiioonn tthheemmsseellvveess bbeettwweeeenn iinntteerrmmoolleeccuullaarr bbuullkk aaqquueeoouuss pphhaassee aanndd ssuurrrroouunnddiinngg mmiicceellllaarr pphhaassee wwhhiicchh hheellppss iinn ssoolluubbiilliizzaattiioonn [[1133]]. Tphleexrees.isTnhoerleitiesrnaotulriteeraavtauirleabalveaiolnabtlheeonmtihceelmlaircienlltaerrainctteiorancatinodn bainodlobgiioclaolgaicctailvaitcytivoiftydeohf ydderhoyadcreotiacceatciicda-bciads-ebdasneadpnhtahpyhlthacyel taocehtyodhryazdoranzeolnigealnigdananddanitds mitsetmalectoalmcpolmexpelse.xTeask. eTnatkoegnetthoegre,tdhuere, tdoutehetosttahteusstoaftuDsHoAf ,DhHydAr,ahziynder,aaznidnem, aentadl imnceotar-l pinocroartpedoramteodiemtieosi,ethieesr,ehine,rewine, wdeesdigensiegdneadndansdysnytnhtehseizseizdedthteheddeehhyyddrrooaacceettiicc aacciidd--bbaasseedd nnaapphhtthhyyllaacceettoohhyyddrarazzidideelilgigananddanadnditsitms metaeltaclocmopmlepxleesxetos tinoviensvteigsatitgeattheetirhemiricmelilcaerlilnartfifeunurntnaeggcrataailclotssnittorrpnaaiainpnrsaas.r.mameteertesrasnadndthtehierirphpahramrmacaecueutitciaclalppootetenntitaial,l,eessppeecciaialllylyaaggaaiinnssttbbaacctteerriiaall aanndd

Methods

Results

Conclusion