Chapter 2 (exam 1)

Question 1

Absorption factors

Answer 1

Variables in Fick’s rate of diffusion

• polarity, ionization (Kow)
• surface area
• # and thickness of membranes
• Conc gradient (high - low)

Question 2

DMSO

Answer 2

Dimethyl sulfoxide

• Moves across skin barrier rapidly
• Dissolve toxicant in DMSO for rapid dermal uptake

Question 3

Partition Coefficient

Answer 3

measures polarity

• Kow = conc in the organic layer/conc in the water layer
• high Kow is highly nonpolar and crosses lipid membranes readily
• determine polarity based on structure

Question 4

Ionization

Answer 4

Neutral compounds diffuse across membranes better than charged ions
-dependent on the pH of the environment

Question 5

pKa and environment pH example

Answer 5

Aspirin pKa of -COOH = 3.49, stomach pH =2, GI pH =6
-uptake greater in stomach because at a lower pH HA will be dominant over A- and the more neutral compound will diffuse better over the nonpolar lipid membrane

Question 6

Why do pharmaceuticals come with HCL

Answer 6

• Forms a salt, which is easier to transport and package

- The toxin has little effect on the pH of the environment

Question 7

Concentration Gradient

Answer 7

• more probably that high conc molecules will hit the membrane and cross over
• based on random motion

Question 8

Passive diffusion

Answer 8

gradient dependent

• probability of hitting the membrane
• conc in blood is very close to zero, fast motion removes the substance quickly
• “hitchhiker” uptake from Pb2+ looking like Ca2+

Question 9

Active Transport

Answer 9

• burns ATP
• couple with nonspontaneous
• against the gradient
• use transport proteins and enzymes as carriers

Question 10

Filtration

Answer 10

passive diffusion of polar/charged substance through small pores

Question 11

Endocytosis/pinocytosis

Answer 11

particles into the cells by forming vesicle from membrane

-nanoparticles

Question 12

GIT

Answer 12

epithelial cells
continuous with exterior
high surface area
pH - stomach(2) intestine(6) blood(7.4)
mostly passive diffusion

Question 13

Lungs

Answer 13

• thin membrane
• facilitate exchange
• difference between upper and lower

Question 14

Particle Size in Lungs

Answer 14

Large are filtered out by the URT

Small penetrate to the LRT

Question 15

Gases and Aerosols in Lungs

Answer 15

• some particulate filtered out by URT
• permanent gases make it to the LRT
• PM2.5 - particle smaller than 2.5 um gets to LRT, less than 1 um gets to alveoli
• water soluble gases dissolve into nasal fluid
• low water solubility go to LRT

Question 16

Reactivity in Lungs

Answer 16

• highly reactive effect the URT
• low reactivity effect the LRT
• Ozone - 30% into URT even though low water solubility. High reactivity

Question 17

Brick and Mortar model of skin

Answer 17

Keratinocytes/corneocytes are polar
surrounded by nonpolar lipids
-Tortuosity describes the indirect pathway
-no active transport because cells are dead

Question 18

Solvents through dermis

Answer 18

nonpolar increase fluidity of the lipids or remove it. Less barrier to move through

Question 19

Perfusion

Answer 19

blood flow to an organ or tissue. More exposure to toxicant in the higher perfused tissue
high- brain, liver , kidneys
low- bone, adipose,

Question 20

Depots

Answer 20

accumulation of a chemical in a specific tissue based on physical or chemical properties

• nonpolar compounds in fat
• Sr2+ and Pb2+ on bone
• albumin

Question 21

Albumin

Answer 21

• blood plasma protein
• attracts nonpolar and ionic compounds to minimize the surface area exposed to water
• common for antibiotics

Question 22

Deports (reversibly bound)

Answer 22

Follow LeChatelier’s principle

• when blood conc decreases, more is released
• lead in kids, removing them from the lead environment will cause it to be released from depots
• does not apply to irreversible binding
• graphs

Question 23

Distribution barrier

Answer 23

Blood brain barrier
-blood vessels have smaller/fewer pores, more specific transporters, tighter junctions between cells
Blood placenta barrier
-not as selective as blood brain barrier

Question 24

Metabolism Goal

Answer 24

• facilitate excretion

- increase aqueous solubility

Question 25

Nonpolar risks

Answer 25

• increased uptake
• increased storage in depots and accumulation
• orange baby noses from accumulation of beta-keratine in carrots and sweet potatoes

Question 26

Pro/Con to modifying chemical structure

Answer 26

pro-detoxification
-decrease receptor compatability
con - metabolite more toxic than parent compound
- highly reactive metabolite

Question 27

Membrane thickness

Answer 27

GIT - 30um
Respiratory - 0.4 - 1.5 um
Skin - 100-200 um
injection - 0 um

Question 28

Phase II metabolism (general)

Answer 28

increase solubility by adding small polar molecule (conjugation reaction)

• sugar, polypeptides add -OH groups and some proteins can be ionized
• often occurs at the site of phase I functional group
• reliably detoxifies
• creates large polar region to increase excretion
• relies on enzyme

Question 29

Phase I metabolism (general)

Answer 29

generally oxidation that increases aq solubility by adding a polar functional group

• OH, -COOH (ionizable), R=O
• single functional group
• more reactive than phase II

Question 30

Phase I enzymes

Answer 30

-cytochrome P450s
Flavin containing monooxygenases (FMO)
-Dehydrogenases

Question 31

P450 general

Answer 31

• enzymes for phase I
• 2000+ vary by substrate specificity and organism
• found in portals of entry (skin, nasal mucosa, lungs, GIT, liver, kidney)
• metabolize xenobiotics and endogenous materials

Question 32

P450 as microsomal enzyme

Answer 32

• “small bodies” organelles in a cell
• Primarily in smooth endoplasmic reticulum
• isolate by lysing cell and centrifuge
• -s9 fraction is the percentage of microsomes and cytosolic enzymes

Question 33

P450 general reaction

Answer 33

RH + O2 + NADPH + H+ = ROH + H2O + NADP+

-NADPH to help the O2 oxidize C-H bond

Question 34

P450 catalytic cycle

Answer 34

RH present at all times
-Fe3+ from heme and NADPH e- = Fe2+
-Fe2+ and O2 = Fe3+O2-
-NADPH e- = Fe3+[O2]2-
- 2H+ leave as water = [Fe-O]3+
-Fe3+ + ROH
(can all occur in vitro)

Question 35

P450 example

Answer 35

benzo(a)pyrene is a polycyclic carbon

• product of incomplete combustion and cig smoke
• P450 produces an epoxide
• epoxide hydrolase produces diol
• P450 and diol make diol epoxide(toxic) that is not a substrate of P450

Question 36

O-dealkylation

Answer 36

• P450 reaction
• chlorfenvinfos - organophosphate pesticide
• remove alkyl group and leave -OH
• as EN atoms, ONSP

Question 37

Flavin-containing Monooxygenases (FMO)

Answer 37

• microsomal enzyme for phase I
• NADPH and O2 required
• goes between quinone(oxidized =O) and hydroquinone(reduced -OH)
• less reactive than P450

Question 38

Alcohol dehydrogenase (ADH)

Answer 38

-in cytosol, of liver, kidney, lungs
-effective on primary and secondary(slower) alcohols
-Produces aldehydes and ketones, which are more toxic (activation)
RCH2OH + NAD+ = RCHO + NADH + H+

Question 39

Fusel Oil

Answer 39

nonethanol alcohols

Question 40

Aldehyde Dehydrogenase (ALDH)

Answer 40

• in cytosol and endoplasmic reticulum, same tissue as ADH

- product is less toxic carboxylic acid

Question 41

Antabuse

Answer 41

• treats alcoholism
• inhibits ALDH
• aldehyde accumulation and causes illness like hangover without other effects of EtOH
• resembles -COO- and ALDH is occupied. Retains high affinity

Question 42

Phase I hydrolysis

Answer 42

Catalyzed by carboxylesterases in tissues and cholinesterases in plasma

• RCOOR’ + H2O = RCOOH + R’OH
• Similar for S and N, replace carbonyl O, same enzyme but fastest with carboxyester
• know the arrow pushing
• nonzero rate without enzyme, can occur abiotically

Question 43

Reductive Dehalogenation

Answer 43

RX = RH + HX

• decrease persistence of organochlorine/bromine
• C-Cl bonds are extremely stable
• reductive dehalogenation is extremely SLOW
• microbially mediated - anerobic (human gut, sediment under water)

Question 44

PCBs

Answer 44

polychlorinated biphenyls

• used in electrical insulators
• persist for decades
• 209 congeners
• low Kow

Question 45

Reductive dehalogenation conditions

Answer 45

anerobic
human gut
sediment-under water, lower rate of oxygen diffusion (consumption>supply)
Accumulation of organics in the sediment

Question 46

PBDE

Answer 46

polybrominated diphenyl ethers
flame retardants
low Kow
similar to PCB in reductive dehalogenation process

Question 47

Global Distillation

Answer 47

• organohalogens have a low volatility but it is not zero
• evaporate over time and circulate
• Deposit in arctic because air is cold
• high accumulation is polar bear
• high fat content in polar bear milk and gets passed to cubs
• native women are warned against breastfeeding

Question 48

Glucuronidation facts

Answer 48

• glucuronosyl transferase puts glucuronic acid on a polar functional group (-OH, NH2, COOH)
• enzyme in microsomal fraction of liver, kidney, GIT
• products subject to elimination with polar waste or active transport into bile

Question 49

Glucuronidation reaction

Answer 49

• glucuronic acid carrier by an energetic compound (uridine-5-diphosphoglucuronic acid (UDPGA)
• ROH + UDPGA = RO-GA + UDP
• reversed by abiotic acid hydrolysis
• beta-glucuronidase: enzyme produced by gut flora
• enterohepatic circulation (increase half life)

Question 50

Sulfate conjugation

Answer 50

similar to glucuronidation

• ROH + PAPS + SULT = RO-SO3- + H+ + PAP
• PAPS - 3 phosphoadenosine-5 phosphosulfate
• SULT - sulfotransferase
• elimination with polar waste or active transport in kidney

Question 51

Phase I to Phase II info

Answer 51

Phase I - powerful oxidation that produces reactive metabolites
Phase II - ready to works and is used immediately
- energized mechanism
- must work immediately because phase I metabolite is reactive

Question 52

Gluthione conjugation

Answer 52

must have a reactive center on the substrate(electrophilic carbon)
gluthione is a nucleophile

Question 53

Gluthione(GSH)

Answer 53

polypeptide
gamma-glutamyl-cysteinyl-glycine - high conc in liver, up to 10% of cellular protein, in cytoplasm
SH nucleophilic center
doesnt need enzyme
Rate increases with glutathione-S-transferase (GST)

Question 54

Gluthione mechanism

Answer 54

RX + GSH = RSG
mercapturic acid is excreted
remove glutamate and glycine, then acetylate the N

Question 55

Acetylation and Methyltransferases

Answer 55

Acetylation catalyzed by N-acetyltransferase
-adds CH3CO to N
Methyltransferases
-N, O and S methyltransferases
-Co-Substrate is S-adenosylmethionine
-HG2+ + MeHg+ = Me2Hg is nonpolar and accumulates lethal at extremely small doses
-methylate 3 amine to make 4+ amine and increase solubility

Question 56

Ultra short lived metabolites

Answer 56

• bind to the enzyme that created them
• suicide substrate - piperonyl butoxide binds to P450 and decreases their activity, not toxic alone
• enzyme degradation
• new enzyme synthesis

Question 57

Short Lived metabolites

Answer 57

-react close to where they are generated, dont make it beyond the cell or tissue

Question 58

acetaminophen metabolites

Answer 58

• metabolism occurs by P450, sulfation, and gluceronidation
• P45O metabolite from acetaminophen is NAPQI which has toxic reaction with proteins and nucleic acids
• GSH conjugation metabolizes NAPQI
• Chronic EtOH abuse increases P450 activity and NAPQI increases, but GSH is limiting reagent and gets locally depleted
• liver cells die and release contents which can be toxic to other cells and kill them

Question 59

Long lived metabolites

Answer 59

• transported systemically
• methanol CH3OH - CH2O - CHOOH (formic acid)
• formic acid travels to the eye and causes edema which causes blindness

Question 60

Enzyme induction

Answer 60

increases enzyme production

• DNA-RNA-ribosome-proteins
• transcription-translation-synthesis
• inducers are often substrates for P450 and increase P450 production
• planar and nonpolar
• EtOH, benzo(a)pyrene, PCBs, PBDEs, dioxins

Question 61

AhR

Answer 61

• Aryl hydrocarbon receptor
• cytosol
• complexes inducer

Question 62

ARNT

Answer 62

• aryl hydrocarbon receptor nuclear translocator

- brings complex into the nucleus

Question 63

XRE

Answer 63

xenobiotic response element (drug response element)

• on the P450 gene
• binding promotes transcription
• transcription leads to more P450s

Question 64

Ramifications of Induction

Answer 64

• good - facilitates excretion of nonpolar contaminants that would accumulate
• bad - produces more reactive metabolites (diol epoxides)

Question 65

Biomarkers

Answer 65

measurements that indicates an exposure or effect in an organism

Question 66

EROD assay

Answer 66

ethoxyresorufin-O-deethylase assay

• measure P450 activity
• ethyoxyresorufin is not fluorescent, but resorufin is
• loe fluorescent levels are detectable advantage over UV-Vis
• dealkylation of ethyoxyresorufin to resorufin

Question 67

Bioavailability

Answer 67

fraction of a total exposure that can be taken up by an organism

Question 68

How to measure toxicant in environment

Answer 68

• EROD assay measures effect, not just exposure, P450s are active
• integrates exposure over time
• in vitro test with a liver sample
• Blood/fat samples tell amount but not effects

Question 69

Renal elimination

Answer 69

• water soluble compounds
• Phase II metabolites
• -active transporters
• -anion/acid transporters (ionized carboxylic acids)
• -cation/base transporters (ionized amine bases)

Question 70

Liver elimination

Answer 70

• bile acts as a surfactant (hydrophobic and hydrophilic sides)
• active transport can remove chemcials from blood into bile, inot intestine and feces
• compounds can be subject to enterohepatic circulation

Question 71

Respiration elimination

Answer 71

• relevant for permanent gases and compounds with high vapor pressure
• EtOH, solvents

Question 72

Milk

Answer 72

Human - 4% (same as cow)
Polar Bear - 30-35%
Human health hazard for persistant organic pollutants (POPs)

Question 73

Non-mammalian pathways

Answer 73

• skin shedding or molting
• -birds and reptiles
• leaf fall and fruit production