Interaction of phthalazines with molybdenum hydroxylases. Phthalazine and its 1-substituted derivatives as substrates, inhibitors and inducers of aldehyde oxidase and xanthine oxidase, both in vitro and in vivo.

Johnson, Christine

January 1983

The interaction of the 2,3-diazanaphthalene, phthalazine and its 1-substituted derivatives with the molybdenum hydroxylases, aldehyde oxidase and xanthine oxidase, has been investigated both in vivo and /Ok in vitro. Metabolic studies, carried out by treating rabbits with both cold and 14C-labelled phthalazine, have shown that this compound is extensively metabolised in vivo, the major metabolite being a glucuronide conjugate. Very little unchanged phthalazine or its molybdenum hydroxylase mediated oxidation product 1-hydroxyphthalazine were excreted in the urine. Pretreatment of rabbits with phthalazine or 1-hydroxyphthalazine had no effect upon the activity of the microsomal monooxygenases but caused a significant increase in the specific activities of both aldehyde oxidase and xanthine oxidase. Determination of the molybdenum content of purified aldehyde oxidase fractions using electrothermal atomic absorption spectroscopy has confirmed that an increase in the molybdenum content of the enzyme fraction accompanies the increase in activity. A qualitative assessment of purified aldehyde oxidase fractions using iso-electric focusing has indicated that this enzyme may be composed of 2 or 3 active variants and following pretreatment with either phthalazine or 1-hydroxyphthalazine a further band of enzyme activity is apparent on the electropherogram. The Km value for phthalazine is significantly reduced with enzyme prepared from phthalazine treated rabbits, indicating that a form of the enzyme with a high affinity for phthalazine may have been induced. 1-Hydrazinophthalazine (Hydralazine) and two other hydrazine substituted N-heterocycles, endralazine and 1-hydrazinoisoquinoline have been shown to exert a potent progressive inhibition of aldehyde oxidase in vitro, effective only in the presence of substrate, but are inactive towards xanthine oxidase. In addition, administration of hydralazine to rabbits results in a significant reduction in liver aldehyde oxidase activity. Investigations into the interaction of some of the metabolites of hydralazine with aldehyde oxidase in vitro suggest that hydralazine is also the inhibiting species in vivo. / The Ransom Fellowship awarded by The Pharmaceutical Society of Great Britain,

2,3-diazanaphthalene,

Phthalazine

Molybdenum hydroxylases

Metabolic studies

Aldehyde oxidase activity

Interaction of phthalazines with molybdenum hydroxylases : phthalazine and its 1-substituted derivatives as substrates, inhibitors and inducers of aldehyde oxidase and xanthine oxidase, both in vitro and in vivo

Johnson, Christine

January 1983

The interaction of the 2,3-diazanaphthalene, phthalazine and its 1-substituted derivatives with the molybdenum hydroxylases, aldehyde oxidase and xanthine oxidase, has been investigated both in vivo and in vitro. Metabolic studies, carried out by treating rabbits with both cold and ¹⁴C-labelled phthalazine, have shown that this compound is extensively metabolised in vivo, the major metabolite being a glucuronide conjugate. Very little unchanged phthalazine or its molybdenum hydroxylase mediated oxidation product 1-hydroxyphthalazine were excreted in the urine. Pretreatment of rabbits with phthalazine or 1-hydroxyphthalazine had no effect upon the activity of the microsomal monooxygenases but caused a significant increase in the specific activities of both aldehyde oxidase and xanthine oxidase. Determination of the molybdenum content of purified aldehyde oxidase fractions using electrothermal atomic absorption spectroscopy has confirmed that an increase in the molybdenum content of the enzyme fraction accompanies the increase in activity. A qualitative assessment of purified aldehyde oxidase fractions using iso-electric focusing has indicated that this enzyme may be composed of 2 or 3 active variants and following pretreatment with either phthalazine or 1-hydroxyphthalazine a further band of enzyme activity is apparent on the electropherogram. The Km value for phthalazine is significantly reduced with enzyme prepared from phthalazine treated rabbits, indicating that a form of the enzyme with a high affinity for phthalazine may have been induced. 1-Hydrazinophthalazine (Hydralazine) and two other hydrazine substituted N-heterocycles, endralazine and 1-hydrazinoisoquinoline have been shown to exert a potent progressive inhibition of aldehyde oxidase in vitro, effective only in the presence of substrate, but are inactive towards xanthine oxidase. In addition, administration of hydralazine to rabbits results in a significant reduction in liver aldehyde oxidase activity. Investigations into the interaction of some of the metabolites of hydralazine with aldehyde oxidase in vitro suggest that hydralazine is also the inhibiting species in vivo.

615.1

Sinteza, strukturna, fizičko-hemijska i biološka karakterizacija novih N-heterocikličnih liganada i njihovih kompleksa sa jonima prelaznih metala / Synthesis, structural, physico-chemical and biological characterization of N-heterocyclic ligands and their complexes with transition metal ions

Mađari Jožef

08 October 2018

<p>Opisane&nbsp; su&nbsp; sinteze&nbsp; novih&nbsp; liganada&nbsp; bis(ftalazin-1hidrazon)-2,6-diacetilpiridna&nbsp; (Hz₂DAP&middot;2HCl),&nbsp; bis(3-hlorpiridazin-6-hidrazon)-2,6-diacetilpiridina (Hp₂DAP),&nbsp; 3-hlorpiridazin-6-hidrazon&nbsp; di(2-piridil) ketona&nbsp; (HpDPK),&nbsp; ftalazin-1-hidrazon&nbsp; di(2-piridil)<br />ketona&nbsp; (HzDPK)&nbsp; i&nbsp; ftalazin-1-hidrazon&nbsp; piridin-2-karbaldehida&nbsp; (HzPY).&nbsp; Zajedničko&nbsp; svojstvo&nbsp; dobijenih liganada&nbsp; je&nbsp; &scaron;to&nbsp; sadrže&nbsp; piridinski&nbsp; i&nbsp; diazinski&nbsp; prsten&nbsp; i sadrže&nbsp; samo&nbsp; donorne&nbsp; atome&nbsp; azota.&nbsp; Tokom&nbsp; nastajanja kompleksa dolazi do deprotonacije liganada. Svi ligandi su&nbsp; okarakterisani&nbsp; elementalnom&nbsp; analizom, termoanalitičkim&nbsp; metodama&nbsp; i&nbsp; metodom&nbsp; IR spektroskopije,&nbsp; dok&nbsp; neki&nbsp; i&nbsp; metodom&nbsp; NMR spektroskopije&nbsp; kao&nbsp; i&nbsp; rendgenskom&nbsp; strukturnom analizom.Za&nbsp; sintezu&nbsp; koordinacionih&nbsp; jedinjenja&nbsp; primenjeni&nbsp; soli Co(II),&nbsp; Ni(II),&nbsp; Cu(II)&nbsp; i&nbsp; Zn(II).&nbsp; Dobijeni&nbsp; kompleksi su okarakterisani&nbsp; elementalnom&nbsp; analizom, konduktomerijskim&nbsp; i&nbsp; magnetnim&nbsp; merenjima,&nbsp; IR spektroskopijom i termoanalitičkim metodama. Barem jedan&nbsp; kompleks&nbsp; iz&nbsp; svake&nbsp; serije&nbsp; je&nbsp; okarakterisan&nbsp; i rendgenskom strukturnom analizom. Urađena&nbsp; su&nbsp; i&nbsp; ispitivanja&nbsp; antimikrobne&nbsp; aktivnosti odabranih&nbsp; jedinjenja&nbsp; prema&nbsp; predstavnicima&nbsp; grampozitivnih i gram-negativnih bakterija i kulturu kvasca. Pored&nbsp; toga,&nbsp; urađena&nbsp; su&nbsp; i&nbsp; ispitivanja&nbsp; citotoksične,antiproliferativne&nbsp; i&nbsp; inhibitorne&nbsp; aktivnosti&nbsp; jedinjenja prema&nbsp; roditeljskim&nbsp; i&nbsp; multirezistentnim&nbsp; T-limfomnim ćelijama&nbsp; kancera.&nbsp; Utvrđeno&nbsp; je&nbsp; da&nbsp; neka&nbsp; jedinjenja pokazuju&nbsp; izrazito&nbsp; mikrobicidno,&nbsp; citotoksično, antiproliferativno i inhibitorno dejstvo.</p> / <p>The synthesis of new ligands dihydrochloride salt of 2,6-diacetylpyridne&nbsp;&nbsp; bis(phthalazine-1hydrazone) (Hz₂DAP&bull;2HCl),&nbsp; 2,6-diacetylpiridine&nbsp; bis(3- chloropyridazine-6-hydrazone)&nbsp; (Hp₂DAP),&nbsp; di(2-pyridyl)ketone&nbsp; 3-chloropyridazine- 6-hydrazone (HpDPK),&nbsp; di(2-pyridyl)ketone&nbsp; phthalazine-1-hydrazone&nbsp; (HzDPK)&nbsp; and&nbsp; &nbsp; pyridine-2-carbaldehide phthalazine-1-hydrazone&nbsp; (HzPY)&nbsp; have&nbsp; been described. All the ligands contain pyridine and diazine core and all of them have only nitrogen donor atoms. During the complex formation the deprotonation of ligands takes&nbsp; places.&nbsp; All&nbsp; of&nbsp; the&nbsp; ligands&nbsp; have&nbsp; been characterized&nbsp; by&nbsp; elemental&nbsp; analysis,thermoanalytical&nbsp; methods&nbsp; and&nbsp; IR&nbsp; spectroscopy.&nbsp; In some&nbsp; cases&nbsp; also&nbsp; by&nbsp; NMR&nbsp; spectroscopy&nbsp; and&nbsp; X-ray structural analysis.Co(II), Ni(II), Cu(II) and Zn(II) salts were&nbsp; used for the synthesis&nbsp; of&nbsp; the&nbsp; coordinational&nbsp; compounds.&nbsp; The obtained complexes were characterized by elemental analysis,&nbsp; molar&nbsp; conductivity&nbsp; and&nbsp; magnetic measurements,&nbsp; IR&nbsp; spectroscopy&nbsp; and thermoanalytical&nbsp; methods.&nbsp; At&nbsp; least&nbsp; one complex&nbsp; of each&nbsp; series&nbsp; were&nbsp; characterized&nbsp; by&nbsp; X-ray&nbsp; structural analysis.The antimicrobial activity of some of the compounds toward&nbsp; Gram-positive/Gram- negative&nbsp; bacteria furthermore,&nbsp; the&nbsp; cytotoxic,&nbsp; antiproliferative&nbsp; and inhibitory&nbsp; activity&nbsp; toward&nbsp; sensitive&nbsp; parental&nbsp; andmultiresistant&nbsp; T-lymphoma&nbsp; cancer&nbsp; cells&nbsp; have&nbsp; also been carried out. It&nbsp; can&nbsp; be&nbsp; concluded&nbsp; that&nbsp; some&nbsp; of&nbsp; the&nbsp; compounds exhibit&nbsp; outstanding&nbsp; antimicrobial,&nbsp; cytotoxic, antiproliferative, and inhibitory activity.</p>