8) Proteins

Question 1

basic protein formula

Answer 1

RCH(NH2)COOH

Question 2

isoelectric point (pI)

Answer 2

the pH at which the amino acid or protein has no net charge, and the positive charges equal the negative charges

Question 3

At a pH ——– than the pI, the protein carries a ——– charge

Answer 3

greater – negative
less – positive

Question 4

peptide bond

Answer 4

Chemical bond between a carboxyl group of one molecule and an amino group of the other molecule, releasing water

Question 5

Plasma ——— provided by the proteins tends to retain water in the vascular space

Answer 5

colloid osmotic pressure (COP)

Question 6

3 main functions of plasma proteins

Answer 6

• Maintenance of water distribution between cells and tissue.
• Coagulation proteins are important in maintenance of hemostasis.
• Transport vehicles to move various ligands to where they are needed or stored.

Question 7

Rare inherited disease involving the homogentisic acid oxidase

Leads to a buildup of homogentisic acid in the tissues of the body

Answer 7

alkaptonuria

Question 8

darkening of the tissues of the body because of the excess homogentisic acid

Answer 8

Ochronosis

Question 9

Caused by the absence or very low levels of the branched-chain enzyme α-keto acid decarboxylase complex

Answer 9

MSUD

Question 10

Results in the abnormal metabolism of three essential amino acids:

leucine, isoleucine, and valine

Answer 10

MSUD

Question 11

Results in the inability to metabolize the essential amino acid phenylalanine

Answer 11

phenylketonuria

Question 12

grouping of plasma proteins

Answer 12

• Albumin
• Globulin (α1 globulins, α2 globulins, ß1 globulins, λ globulins)

Question 13

TP =

Answer 13

albumin + globulin

Question 14

Main clinical significance of ———- is role as a sensitive marker of poor nutritional status such as protein-energy malnutrition (PEM).

Answer 14

prealbumin/transthyretin (TTR)

Question 15

protein measured in CSF, not electrophoresis

Answer 15

prealbumin/TTR

Question 16

albumin is approximiately —-% of serum protein

Answer 16

60

Question 17

list the 16 plasma proteins
𝛼1 - 3
𝛼2 - 3
β - 5
𝛾 - 2

Answer 17

prealbumin
albumin
—
𝛼1-antitrypsin
𝛼1-acid glycoprotein
alpha-fetoprotein
—
haptoglobin
ceruloplasmin
𝛼2-macroglobulin
—
transferrin
hemopexin
β-lipoproteins
β2-microglobulin
C3
—
fibrinogen
—
C-reactive protein
Ig

Question 18

albumin functions

Answer 18

Maintain plasma colloid osmotic pressure.

Bind and transport a wide variety of ligands.

Serve as an endogenous source of amino acids.

Question 19

causes of hypoalbuminemia

Answer 19

• increased catabolism (most common)
• impaired synthesis
• increased protein loss
• analbuminemia

Question 20

causes of hyperalbuminemia

Answer 20

• Dehydration/decreased plasma volume
• high protein diet
• albumin infusion

Question 21

A/G ratio

Answer 21

albumin/globulin

globulin = TP - albumin

Question 22

RR for A/G ratio

Answer 22

0.8-2.2

Question 23

Major α1–globulin, making up approximately 90% of α1–proteins.

Answer 23

α1–Antitrypsin (AAT)

Question 24

one of the most common genetically lethal diseases in Caucasians (1:4000)

Answer 24

AAT deficiency

Question 25

sx of AAT deficiency

Answer 25

emphysema with onset at 45 years of age or earlier
emphysema occurring in the absence of smoking

Question 26

is the major glycoprotein increased during inflammation, an Acute Phase Reactant (APR).

Answer 26

α1–Acid Glycoprotein/orosomucoid
(AAG)

Question 27

Principal fetoprotein (fetal albumin-like protein) in maternal serum

Answer 27

alpha-fetoprotein

Question 28

Used to screen for the antenatal diagnosis of neural tube defects including spina bifida and anencephaly

Answer 28

AFP

Question 29

—— is decreased in Down’s syndrome and Trisomy 18

Answer 29

AFP

Question 30

increased levels found in 80% of patients with hepatocellular cancer, 50% of germ cell tumors (gonadal), and all children with hepatoblastoma

Answer 30

AFP

Question 31

An acute phase reactant that binds free hemoglobin in plasma

Answer 31

haptoglobin (Hp)

Question 32

Depletion is the most sensitive indicator of intravascular hemolysis, in transfusion reactions, and certain hemolytic anemias.

Answer 32

Hp

Question 33

Principal copper (Cu)-containing protein in plasma containing 95% of the total serum copper

Answer 33

Ceruloplasmin (Cp)

Question 34

Decreased in Wilson’s disease, Menkes disease, malnutrition, malabsorption, severe liver disease, nephritic syndrome

Answer 34

Cp

Question 35

Rare autosomal recessive trait where Cp levels are reduced and the dialyzable Cu concentration is increased.

Answer 35

Wilson disease

Question 36

copper chealators used to tx Wilson’s

Answer 36

penicillamine
trientine

Question 37

effects of Wilson’s disease

Answer 37

• Degenerative cirrhosis
• Chronic active hepatitis
• Renal tubular acidosis
• Neurological damage (clumsiness, tremors)
• Kayser-Fleischer rings, pigmented rings at the outer margins of the cornea and the sclera

Question 38

In nephrotic syndrome, —— is characteristically increased above normal because it is retained while smaller proteins are excreted in the urine.

Answer 38

AMG

Question 39

Major component of β-globulins
negative acute phase reactant

Answer 39

TRF

Question 40

Principal plasma protein for transport of iron as Fe+3 — the ferric ion — to storage sites, where it is bound to apoferritin and stored as ferritin

Answer 40

TRF

Question 41

Important in the differential diagnosis of anemias and monitoring the treatment of iron deficiency anemia

Answer 41

TRF

Question 42

A commonly used indicator of iron overload—screen for hemochromatosis

Answer 42

TRF

Question 43

When red blood cells are destroyed, it transports heme to the liver, where it is catabolized by the reticuloendothelial system.

Answer 43

hemopexin

Question 44

Increased levels are found in pregnancy and in diabetes mellitus.

Answer 44

hemopexin

Question 45

Comprises the common light chain of human leukocyte antigens (HLA) found in all nucleated cells

Answer 45

BMG

Question 46

Used for staging MM and for CLL survival

Answer 46

BMG

Question 47

Increased in renal failure, inflammation, and neoplasms—especially those associated with B-lymphocytes

Answer 47

BMG

Question 48

Collective term for 30 glycoproteins that participate in the immune reaction and serve as a link to the inflammatory response

Answer 48

C3

Question 49

Plasma — sharp peak between Beta and Gamma region on electrophoresis (artifact)

Answer 49

fibrinogen
absent in serum

Question 50

An acute phase reactant and a nonspecific indicator of bacterial vs viral infection, inflammation, and tissue injury or necrosis

Answer 50

CRP

Question 51

Reacts with proteins present in many bacteria, fungi, and protozoan parasites

Answer 51

CRP

Question 52

Levels rise dramatically following myocardial infarction, trauma, psychological or physical stress, infection, inflammation (e.g., rheumatic fever, rheumatoid arthritis), surgery, and various cancers.

Answer 52

CRP

Question 53

undetectable in healthy individuals

Answer 53

CRP

Question 54

Spike in Waldenstrom’s Macroglobulinemia

Answer 54

IgM

Question 55

can rarely see an —– spike in MM

Answer 55

IgA

Question 56

Increased in infections, liver disease,
connective tissue disorders

Answer 56

IgD

Question 57

—– proteins move toward the cathode (right)

Answer 57

gamma

Question 58

Transitory ——— elevations in pre-eclampsia of pregnancy and dehydration.

Answer 58

urinary protein

Question 59

indicator in protein pad of urine strip

Answer 59

tetrabromophenol blue

Question 60

urinary protein elevation causes

Answer 60

pregnancy
nephritic syndrome
acute and chronic glomerulonephritis
renal failure
lesions of the kidney
multiple myeloma

Question 61

RR for CSF protein

Answer 61

15-45 mg/dL

Question 62

Increased CSF protein levels indicate…

Answer 62

a broken blood/brain barrier

Question 63

Associated with a positive nitrogen balance

Answer 63

hyperproteinemia

(hemoconcentration or dehydration)

Question 64

characteristic electrophoresis pattern of MM

Answer 64

monoclonal spike in gamma region

Question 65

Caused by a negative nitrogen balance

Answer 65

hypoproteinemia

Question 66

Based on presence of peptide bonds found in all proteins.

Answer 66

biuret reagent

Question 67

When a solution of protein (serum or plasma) is treated with cupric (Cu+2) divalent ions in a moderately alkaline medium, a violet-colored chelate, which absorbs light at —– nm, is formed between the cupric ion and carbonyl oxygen and the amide nitrogen atoms of the peptide bond.

Answer 67

540

Question 68

Sodium potassium tartrate
Copper sulfate
Potassium iodide
NaOH

Answer 68

biuret reagent

Question 69

dye-binding method of protein analysis uses ———-, which is dissolved in an acidic solution, causing it to absorb at 465 nm

Answer 69

Coomassie Blue G-250

Question 70

RR for serum protein

Answer 70

6.0-8.3 g/dL

Question 71

A physiological decrease of approximately 0.5 g/dL protein occurs in …..

Answer 71

bedridden patients

Question 72

2 methods used for albumin

Answer 72

Bromocresol green
Bromocresol purple

Question 73

4 requirements for dye-binding albumin methods

Answer 73

1. Specific binding of the dye to albumin in the presence of serum or plasma proteins
2. High binding affinity between the dye and albumin
3. Substantial shift in the absorption wavelength of the dye in the bound form
4. Absorption maximum for the bound form at a wavelength distinct from those where bilirubin and hemoglobin, the main interfering chromogens, can interfere

Question 74

zwitterion

Answer 74

A molecule or ion having separate positively and negatively charged groups, with net zero charge

Question 75

relative protein %

Answer 75

relative % = absorbance of one band/absorbance of all bands

Question 76

high resolution electrophoresis

Answer 76

divides Beta band into 2

Question 77

Electrophoresis pattern shows a double albumin spike

Answer 77

bisalbuminemia

Question 78

a condition in which abnormal proteins (antibodies) of one type are found.

Answer 78

monoclonal gammopathy

Question 79

a condition in which results from an increased production of several different immunoglobulins.

Answer 79

polyclonal gammopathy

Question 80

• Patient’s serum has an M-protein that measures <3 g/dL
• Bone marrow that contains <10% of plasma cells
• no CRAB

Answer 80

Monoclonal Gammopathy of Undetermined Significance (MGUS)

Question 81

• Patient’s serum has an M-protein that measures ≥3g/dL
• Bone marrow that contains ≥10% of plasma cells
• no CRAB

Answer 81

Smoldering Multiple Myeloma (SMM)

Question 82

Plasma cells light chains (pieces of antibodies) misfold and build up in organs, causing them to thicken and loose function

Answer 82

amyloid light-chain (AL) amyloidosis

associated with SMM

Question 83

Neoplastic proliferation of a clone of plasma cells

Answer 83

multiple myeloma

Question 84

b cell tumor

Answer 84

plasmacytoma

Question 85

hallmark of MM

Answer 85

lytic bone lesions

Question 86

free light chains in urine associated with MM

Answer 86

Bence Jones proteins

Question 87

Answer 87

Calcium (hypercalcemia)
Renal insufficiency
Anemia
Bone lesions/pain

Question 88

Overproduction by B lymphocytes, mainly in lymph nodes

Answer 88

Waldenstrom’s Macroglobulinemia (WM)

Question 89

Starts with an IgM MGUS

Answer 89

WM

Question 90

Enlarged lymph nodes
Rouleaux formation on peripheral smear
↑ ESR

Answer 90

WM

Question 91

Can precipitate and act as a cryoglobulin at low temperatures

Raynaud’s phenomenon
cold urticaria

Answer 91

WM

Question 92

Can lead to Hyperviscosity syndrome

Answer 92

WM

Question 93

adverse effects of hyperviscosity syndrome

Answer 93

• Bleeding/vascular insufficiency
• Visual impairments
• Cardiac Insufficiency
• Neurological side effects
• Analyzer Issues

Question 94

Precipitated out upon heating to 50-60°C and redissolved upon further heating to 90-100°C

Answer 94

Bence-Jones proteins

Question 95

Motion of a liquid when a voltage is applied between the ends of an insulating tube that contains that liquid

Answer 95

electroosmosis

Question 96

methodologies used to ID protein levels and M spikes

Answer 96

1. Electrophoresis (SPEP or UPEP)
2. Immunotyping (IT)
3. Immunofixation electrophoresis (IFE)

Question 97

principle of IT

Answer 97

Disappearance of the abnormality in the antiserum-treated pattern indicates the presence of a monoclonal protein.

Question 98

used to type any suspected monoclonal component previously detected by serum protein electrophoresis

Answer 98

Immunofixation Electrophoresis (IFE)

Question 99

IEF techniques are similar to electrophoresis except that the separating molecules migrate through a pH gradient.

Answer 99

isoelectric focusing
(not done anymore)

Question 100

—— is the most common cause of β-γ bridging.

Answer 100

cirrhosis

Question 101

Excessive loss of serum proteins into the GI tract

Answer 101

protein losing enteropathy (PLE)

Question 102

Results in hypoalbuminemia → poor surgical outcomes → risk of death

Answer 102

PLE

Question 103

Fecal excretion of alpha 1-antitrypsin

Answer 103

PLE

Question 104

↓ albumin
↑ 𝛼2
↑ 𝛾

Answer 104

chronic inflammation

Question 105

↓ albumin
↑ 𝛼2
variably ↑ β
↓ 𝛾

Answer 105

nephrotic syndrome

Question 106

↓ albumin
↑ 𝛾
briding

Answer 106

hepatic cirrhosis

Question 107

↓ 𝛾

Answer 107

hypogammaglobulinemia

Question 108

↓ albumin
↑ 𝛼2
↓ 𝛾

Answer 108

protein-losing enteropathy

Question 109

↓ albumin
↑ 𝛼1
↑ 𝛼2

Answer 109

acute inflammation

Question 110

↓ albumin
↑↑ 𝛾 spike

Answer 110

monoclonal gammopathy