32 - Clinical Assays of Enzymes

Question 1

Immunoassays

Answer 1

Quick & Specific

But only one protein @ a time
no Parallel assays

Detected by:
Color Change / Fluorescence / Radiolabel

Question 2

Electrophoresis & Chromatography

Answer 2

CHEAP but slower vs immunoasays

Parallel Assay
(more than 1 at a time)

Detection:
Stains / IV absorbance / Fluorescence

Question 3

Electrophoretic Separations

and it is dependent on what?

Answer 3

SIZE

Larger Size of Particle –> larger drag force –> LESS IT MOVES

CHARGE = Z

Greater the E-Force on the particle –> MORE IT MOVES

Question 4

Detecting Proteins with ELECTROPHORESIS

what is used?

Answer 4

To REDUCE diffusion & convection –> to IMPROVE resolution
proteins are often electrophoresed in a
GEL MEDIUM
Polyacrylamide / Agrose / Cellulose acetate

this is then treated with a dye or
STAIN
Bromcresol Green / Coomassie Blue

Intensity of the stain : amount of protein present

Question 5

• *Capillary Electrophoresis**
• *CE**

Answer 5

AUTOMATED & NO GEL MEDIUM
uses a cool capillary tube that supresses the convection

Detected by:
UV Absorbance / MS

To detect:
DRUGS / Proteins

we can use micelles for un-charge analytes

Question 6

Blood level of enzyme/protein is UNUSUALLY HIGH,
indicates what?

Diagnostic Enzymology

Answer 6

MAY indicate Pathology

different tissues have:
different levels of key ezymes / proteins
and might even have different forms (isozymes / isoforms)

Question 7

If enzyme / protein levels are well BELOW the normal levels….

Diagnostic Enzymology

Answer 7

There MAY be some damage to the
SECRETING ORGAN

Question 8

Assays help us do what for

Diagnostic Enzymology?

Answer 8

IDENTIFY the affected tissues

find the EXTENT of damage

and possibly the CAUSE of the damage

Question 9

Examples of Enzymes and Proteins Assayed ​for

LIVER DAMAGE

Answer 9

Alkaline Phosphatase

AST / ALT

LDH

5’ nucleotidase / GGT / albumin / complement factors

Question 10

Examples of Enzymes and Proteins Assayed ​for

HEART MUSCLE DAMAGE

Answer 10

MYOGLOBIN

TROPONIN I / T

isoforms of creatine kinase + LDH

AST / ALT

Question 11

MULTPLE/Continous Enzyme Assay

How do we determine the AMOUNT OF ENZYME PRESENT?

Answer 11

Initially, Product increases LINEARLY w/ time
we are Following PRODUCT RELEASE at a rate of time

Δ[P] is proportional to the Amount of Enzyme

so we can COMPARE:
Δ[P]to the standard calibration curve
in order to get the amount of enzyme present

Question 12

End-Point Assay
one of 2 main ACTIVITY ASSAY types

Answer 12

Start the rxn and incubate for a FIXED TIME @ constant T

then STOP reaction & measure amount of PRODUCT
simple but PRONE TO ERROR

can be automated and done quickly
also must be done in LINEAR REGION of the kinetic curve

Question 13

Continuous / Multiple Point Assay

one of 2 main ACTIVITY ASSAY types

Answer 13

Start RX & follow it CONTINUOUSLY
with MANY time points

More accurate but MORE Complicated

can be automated and done quickly
also must be done in LINEAR REGION of the kinetic curve

Question 14

Steps / Precautions AFTER drawing blood sample

before doing the Assay

Answer 14

Centrifugation
seperates Serum from RBC / leukocytes
serum may then be directly assayed or STORED

proteins denature / degrade upon storage
we can try to fight that by reducing temperature to help maintin stability & activity
BUT NOT ALWAYS

Question 15

Enzyme Stability
<10% change in activity

Answer 15

ALT
can NOT be FROZEN

Question 16

What does ONE Conventional UNIT ( U ) of enzyme activity

do?

Answer 16

CONVERT

1 MICROmole of substrate

to product in ONE MINUTE

Question 17

• *Alkaline Phosphatase**
• *ALP** or AP

Function & Catalytic Activity

Answer 17

HIGH ALP:
from Rapid Bone Growth @ puberty
from Placental Release @ 3rd trimester of pregnancy

group of enzymes that
Hydrolyze monoPhosphate esters @ ALKALINE pH

Highest activity in
LIVER / BONE / intestine / kidney / placenta
but is found in most tissues

Question 18

GGT
Gamma-Glutamyl Transferase

Function & Catalytic Activity

Answer 18

Induced by DRUGS & ALCOHOL

HIGH Serum GGT = Liver Disease
NORMAL in bone disease, ALP might be elevated

• *Microsomal** enzyme that is major in:
• *Glutathione Metabolism**
• *Resorption** of AA’s in kidney

Activity is HIGHEST in KIDNEY

Question 19

5’-Ntase
5’-Nucleotidase

Function & Catalytic Activity

Answer 19

Serum levels Increased in LIVER DISEASE
but NOT in bone disease

Hydrolyzes Nucleoside 5’-phosphate Esters

microsomal enzyme

Question 20

Aminotransferases

ALT (Ala) / AST (Asp)

Function & Catalytic Activity

Answer 20

Converts:
AA’s –> corresponding a-Keto acids

ALT = highest in Liver

AST = roughly EQUAL levels in Heart / SkelMuscle / Liver

may be elevated in:
liver disease / MI / Renal infarction

Question 21

LDH
Lactate Dehydrogenase

Function & Catalytic Activity

Answer 21

Interconverts:
Lactate <–> Pyruvate

using NAD/NADH
cytoplasmic enzyme

HIGHEST levels found in kidney & heart
also found in other tissues

Question 22

Diagnosing a AMI (Acute Myocardial Infarction)

Answer 22

Presence of at least 2 of the following:

H/O Chest Pain

Evolutionary Changes in ECG
EKG / ECG = electrocardiogram

Elevation in serum of Cardiac Enzymes / Proteins
LDH / Creatine Kinase
Myoglobin / Troponin I & T

Question 23

Cardiac Markers

ENZYMES

and how do they differ?

Answer 23

LDH & Creatine Kinase isoforms

differ in:
location in cell
how quickly they are released after cell damage
how quickly they are cleared from serum

Question 24

Cardiac Markers

PROTEINS

Answer 24

Myoglobin** & **Troponins I & T

differ in:
location in cell
how quickly they are released after cell damage
how quickly they are cleared from serum​

Question 25

AMI Markers

Answer 25

1st to Peak = MYOGLOBIN
returns in 1 day

2nd = CK

• *Troponin I** = 1st peak
• *Troponin T** = 2nd peak

Last to Peak = LD

Question 26

LDH Isoforms

Answer 26

• *Tetrameric enzyme** w/ 2 main subunit types:
• *M & H**

with 5 principle isoforms that are MORE Tissue-specific:
Mixed Isoforms = LD2/3/4
found in a WIDE variety of tissues

Isoforms can be seperated with
ELECTROPHORESIS & QUANTIFIED

Question 27

LD-1 is found in highest concentrations where?

Lactate Dehydrogenase Isoform

Answer 27

H4
1 of 5 LDH isoforms, highest in

HEART muscle / KIDNEY / RBC

Think LD1 = #1 is heart muscle

Question 28

LD-5 is found highest concentrations where?

Lactate Dehydrogenase Isoform

Answer 28

M4
one of 5 LDH isoforms found highest in:

LIVER & SKELETAL MUSCLE

Question 29

What can cause a RISE in TOTAL Serum LDH?

Answer 29

STROKE / HEART ATTACK
LD-1 (H4)

blunt-force TRAUMA
LD-1 RBC

LIVER DAMAGE
LD-5 (M4)

heavy EXERCISE
LD-5 skeletal muscle

Question 30

Which indicates an ACUTE MI?

LDH Isoform Levels

Answer 30

B & C

LD1 = Heart / Kidney / RBC

HIGH LD1 indicates ACUTE MI

Question 31

Creatine Kinase
CK

Function & Catalytic Activity

Answer 31

Dimeric enzyme that catalyzes:

REVERSIBLE Phosphorylation of CREATINE
using ATP
Creatine Phosphate = resevoir for “High Potential” Phosphate
for re-phosporylation of ADP during EXERTION

Greatest activity in:
MUSCLE / Brain / Heart

Question 32

CK Isoenzymes

Answer 32

2 Subunit polypetides:

• *B = Brain (comes FIRST)**
• *M = Muscle**

Three main isoenzymes:
CK-1 = BB
CK-2 = MB
CK-3 = MM
CK-4 = mitochondrial form

Isoforms can be seperated by ELECTROPHORESIS

Question 33

Through electrophoresis if there is a SHIFT
in CK isoform concentrationfrom

CK-3 -> CK-2

WHAT DOES THAT INDICATE?

Answer 33

MYOCARDIAL INFARCTION

CK-3 = MM (Muscle concentration)
leaks down to:
CK-2 = MB (Mix of Muscle + Brain)

shows that there is a LEAK from MUSCLE -> BRAIN

Question 34

CK as a DISEASE MARKER

Answer 34

Duschenne’s Muscular Dystrophy
rise in CK-3 & 2 = skel muscle

HEART = MI / other heart conditions
leak from CK-3 –> CK-2 MB

CNS in cerebral ischemia / cerebrovascular disease
CK-3 RISES ALONE, comes likely from VASCULAR cells

TUMORS
neuronal damage –> raise in CK 1