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  • So welcome back.

  • Let's continue our lecture series on drug metabolism and talk about Phase I and Phase II reactions.

  • So what we're going to do here is break this up into 2 parts.

  • And so, Phase I metabolism, I just want you right now to associate it with the Cytochrome P 450 system and that's something we eluded to in the last lecture.

  • And so, what enzymes is Phase I metabolism using? What class of enzymes?

  • And so, the class of enzymes we use are called oxidases

  • and what do these oxidases do?

  • Well they unmask or introduce polar groups. Examples being -Os and -OHs. Hence, the term oxidases.

  • And they unmask these polar groups on the drug.

  • And what we're going to do in about one minute is actually draw out this reaction so you can see it and understand it

  • and the name of these oxidases by enlarge, the largest family of drugs working in the you know Phase I metabolism are the cytochrome p450

  • and so, we see CYP - that's where it comes from and then 450.

  • Now where does the 450 come from?

  • This has confused lots of people.

  • Well, these are heme-containing enzymes and just a little historical tidbit, remember that heme binds oxygen

  • but more than oxygen, heme binds carbon monoxide.

  • And so, when heme binds and forms carbon monoxide, the maximum wavelength that it absorbs is 450 nanometers

  • and that's where the name comes from but let's look at Phase I metabolism here.

  • And the reason we're going to do this is so that you get it, so that you understand.

  • So, we start with the drug and what we want to do now is take this drug, metabolize it

  • and form a more water soluble drug.

  • And I'm just going to write a drug with a star and that star means it's more water soluble.

  • Well, the first thing, let's switch colors here.

  • First thing I want to realize is we're using oxidases. We're trying to introduce our unmasked polar groups.

  • And so, cytochrome p450 because we are heme-containing enzymes, we know they like to deal with oxygen.

  • So, I'm just going to write in oxygen here.

  • And so, one thing that does happen is we have this O2.

  • One of these oxygens ends up binding to this drug.

  • The other oxygen ends up forming H2O.

  • So, let's just put in O here and I'll write the H2 and I'm being a little anal about color-coding but whatever. H2.

  • So, where are we getting the hydrogens from?

  • Well, the hydrogens we are getting from NADPH. NADPH.

  • And hopefully, you remember NADPH. This is from Biochemistry.

  • So, NADPH, we covered - well not we but you probably covered some time in the past. This is part of the pentose phosphate shunt or pathway.

  • Whatever you want to call it.

  • Do you remember when we were forming, when we took you know Glucose 6 Phosphate and we formed, 6 Phosphogluconate.

  • Oh! Good old Biochemistry.

  • Well as a by-product performed in NADPH - important concept.

  • And so, NADPH actually acts as a reducing agent.

  • It's a reducing agent.

  • So, what do I mean when I say reducing agent?

  • Who knew Biochemistry was going to come back.

  • By reducing agent, it means it can reduce other molecules.

  • And so, we remember oil rig, oxygen is lost of an electron. Reduction is gain oil rig.

  • By being a reducing agent, it causes other molecules to get reduced to gain an electron.

  • And as a result, it loses an electron.

  • So, we would expect if it is a reducing agent, if it's losing an electron, it itself is getting oxidized

  • and by losing an electron, at the end here we form NADPH+ (positively turned).

  • The big picture here though is that we are using cytochrome p450, we have a requirement for molecular oxygen.

  • One of those oxygens goes and binds to the drug. The other oxygen goes and typically forms water and the enzyme we are using here is cytochrome p450

  • and that is Phase I metabolism.

  • Now you can get much more detail with it but that's the big picture I think you should know.

  • But, there are other non-cytochrome p450 enzymes that are in phase I reactions but they constitute the minority.

  • But one of them I do think you should know is alcohol dehydrogenase.

  • This breaks down alcohol and it takes alcohol. We use alcohol dehydrogenase and it forms acetylaldehide

  • which is actually one of the side effect producing components of alcohol and acetylaldehide is later broken down into acetate.

  • We'll cover that later.

  • Now, the cytochrome p450 family has a unique way of being named.

  • And so, we'll see these names 3A4 or 2D6. What do those mean?

  • So, these are probably 2 of the most common cytochrome p450 enzymes

  • And so, the way this naming works is 3 represents the family of drugs, the A represents the subfamily of enzyme

  • and the 4, actually represents the actual isozyme - the individual isozyme.

  • I think of this as a family. This is the you know grandmother. This is the mother and ths is the daughter

  • and it's the individual person right here.

  • So the iso 1 zyme 1 enzyme.

  • and this is Phase 1 metabolism.

So welcome back.

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第Ⅰ相代謝-薬理学講義7 (Phase I Metabolism - Pharmacology Lect 7)

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    Yu Syuan Luo に公開 2021 年 01 月 14 日
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