Toxicophores Flashcards
Define biophore
Is a structural moiety that is statistically related to biological activity
What are the most importatant nitrogen-containing toxicophores?
- aromatic nitro
- aromatic amine
- nitrosoamine
- aziridine
- aromatic azo
- nitrogen mustard
- hydrazine
- hydrazide
What is the toxic mechanism of nitrogen-containing toxicophores?
Nitrogen has the ability to “steal/absorb” positive charges –> makes them very reactive
- Nitrogen absorbs a positive charge from oxygen
- Nitrogen becomes positively charged (formation of nitronium ion)
- The positive charge can be relocated in the aromatic ring
Which toxicophores are considered mutagenic?
Mutagenic compounds:
- Double-bonded azo type
- Tri-membered aziridine
- Aromatic amine
- Polycyclic system
- N-heterocyclic-quinone-redox-cycling
- Quinone
- Polycyclic aromate
- Nitroso
- Azole
- Aliphatic hallide
- Epoxide
What is the purpose of an Ames in vitro Assay?
To detect genetic damage caused by chemicals.
A chemical is considered mutagenic (Ames test positive) when its addition to the assay causes a significant increase in the number of bacterial colonies compared to a control experiment
What characterizes azoles as toxicophores?
The azole structure contains an sp2-hybridized nitrogen atom in the imidazole ring, which has an extremely high affinity for Fe3+ found in cytochrome-P-450 (CYP) enzymes.
This ability is applied in the therapeutic mechanism but is also the reason for toxicity.
- Therapeutic: the azole covalently binds to the fungal CYP51 –> obstructing the production of ergosterol from lanosterol –> inhibits fungal growth and function
- Toxic: binding to fungal CYP51 is not specific, and the azole may also bind to other CYP enzymes, including human CYPs –> may interfere with steroidogenesis
Which toxicophores are considered carcinogenic?
Same pattern as mutagenecity (nitrogen):
* aromatic amines
* amides
* hydroxylamines
* nitrosoamines
* azo compounds
But also:
* Lactone structure (bizarre oxygen structures)
* Polyaromatic hydrocarbons
What is the general mechanism for cancer?
Cancer mechanisms:
Phase 1 hydroxylation –> Radical on the carbon due to the azotype double bond.
Phase 1 epoxidation –> Creation of epoxide –> very reactive and toxic compound
Phase 2 acetylation –> Positive charge on nitrogen
How is benzo[a]pyrene (BaP) detoxified?
Phase 1: CYP1A family adds an epoxide on carbon 4 and 5 to benzo(a)pyrene (BaP-4,5-oxide)
Phase 2:
1) Conjugation with glutathione by GSH-S-transferase (GST)
OR
2) addition of water followed by conjugation with UDP-glucuronic acid by UDP-glucuronosyl transferase (UGT)
What is the toxic mechanism of benzo[a]pyrene (BaP)?
–> epoxidation of carbon 7,8 (BaP-7,8-oxide)
–> addition of water molecule
–> CYP1A1 will interfere and add another epoxide on carbon 9,10
–> high affinity to nitrogen in guanine
–> BaP-7,8-diol 9,19-oxide will attack guanine
–> substitution of adenine instead of cytidine
–> DNA adduct
–> Mutation, cancer
Which substructures are detoxifiers?
- Sulfonamides, SO2NH
- Sulfonic acid, SO2OH
- Aryl sulfonyl
- Sulfinyl
- Fluorides (less reactive than chlorides and bromides), CF3
- COOH (not so powerful)
What is the mechanism behind detoxifiers?
Detoxifiers are either:
1) strong electron-withdrawing groups and they create a large charge distribution near the toxicophore –> less focused reactions
2) groups that induce steric hindrance near the toxicophore –> makes it hard to react
Which addition of which types of groups can lead to increased reactivity?
Electrophiles, free radicals, nucleophiles, redox-active reagents
