Staining

Question 1

What is the Direct staining method?

Answer 1

A labeled Ab of known specificity is used to identify Ag in patient tissue.

Question 2

What is the Indirect staining method?

Answer 2

The patient’s serum is added to tissue sections containing known Ag to test the patient for the presence of Ab to those Ag. The patient’s serum can also be added to bacteria.

Question 3

What is the Unlabeled/ Soluble Enzyme Immune Complex method?

Answer 3

A 3 step method involving a primary Ab, secondary Ab and a soluble enzyme-antienzyme complex.

Question 4

What is the Avidin-biotin complex (ABC) method?

Answer 4

The primary Ab is followed by a secondary biotinylated Ab which bond irreversibly to Avidin and forms a complex.

Question 5

What are three main benefits of the ABC method?

Answer 5

1. There is low background staining
2. Sensitivity can be up to 40X other immunoperoxidase methods
3. Ab may be used at higher dilutions than in other methods.

Question 6

What is polymeric detection?

Answer 6

The “gold standard” of IHC staining in which either a single strand (monomeric) or multiple strand (polymeric) molecules are fused with the secondary Ab which eliminates the need for ABC or patient serum. We did this in Vancouver.

Question 7

Which detection system works better: monomeric or polymeric?

Answer 7

Monomeric, because there is increased sensitivity and Ab binding site penetration with single strand molecules. Turnaround time is also decreased.

Question 8

What is the general procedure for polymeric detection?

Answer 8

Ab-polymer-chromogen.

Question 9

What neoplasm does BCL2 test for?

Answer 9

Follicular lymphoma.

Question 10

What neoplasm does CD117 test for?

Answer 10

Gastrointestinal stromal tumor.

Question 11

What neoplasm does CD15 test for?

Answer 11

Hodgkin’s lymphoma.

Question 12

What neoplasm does CD20 test for?

Answer 12

B cell lymphoma.

Question 13

What neoplasm does CD3 test for?

Answer 13

T cell lymphoma.

Question 14

What neoplasm does CK20 test for?

Answer 14

Colon carcinoma.

Question 15

What neoplasm does Cytokeratin (Pankeratin) test for?

Answer 15

Carcinoma in general.

Question 16

What neoplasm does Desmin test for?

Answer 16

Leiomyoma (smooth muscle tumor, common in uterus).

Question 17

What neoplasm does ER test for?

Answer 17

Breast carcinoma.

Question 18

What neoplasm does Glial Fibrillary Acidic Protein (GFAP) test for?

Answer 18

Glioblastoma multiforme.

Question 19

What neoplasm does Gross Cystic Disease Fluid Protein (GCDFP-15) test for?

Answer 19

Breast ductal carcinoma.

Question 20

What neoplasm does HER2 test for?

Answer 20

Breast carcinoma.

Question 21

What neoplasm does HMB-45 test for?

Answer 21

Melanoma.

Question 22

What neoplasm does CD45 test for?

Answer 22

Lymphoma.

Question 23

What is another term for CD45?

Answer 23

Leukocyte common Ag.

Question 24

What neoplasm does Melan-A test for?

Answer 24

Melanoma.

Question 25

What neoplasm does PR test for?

Answer 25

Breast ductal carcinoma.

Question 26

What neoplasm does S100 test for?

Answer 26

Schwannoma.

Question 27

What neoplasm does Thyroid Transcription Factor (TTF1) test for?

Answer 27

Lung adenocarcinoma.

Question 28

What neoplasm does Vimentin test for?

Answer 28

Seminoma or overfixation of tissue.

Question 29

T/F: Precut control slides may be stored at room temperature indefinitely.

Answer 29

False, storing them at room temp is not as good as in the fridge.

Question 30

T/F: The procedure for staining cytology smears is the same as for routine slides.

Answer 30

False, each different type of slide must have its own protocol on the stainer.

Question 31

In the bloody areas of a tissue section stained with the immunoperoxidase technique, there is a marked reaction with RBCs. What happened?

Answer 31

There was a failure to use hydrogen peroxide, it is crucial if the tissue contains many RBCs.

Question 32

Paraffin sections stained with the immunoperoxidase technique show excessive background staining. What happened?

Answer 32

The nonimmune serum was not applied. If the first protein solution applied to the tissue is the primary Ab, nonspecific binding can occur.

Question 33

The skin control section for S100 was stained with the immunoalkaline phosphatase technique using fast red TR as the chromogen. It shows negative staining. What happened?

Answer 33

The sections were accidentally dehydrated and cleared and caused the chromogen to break down.

Question 34

What is “Quenching”?

Answer 34

The blocking of naturally occurring excess endogenous enzyme found within a cell prior to IHC staining. Ex. in RBCs causing excessive background staining.

Question 35

When is “Quenching” performed?

Answer 35

At the beginning of the procedure, after deparaffinization and heat is applied for most Ag.

Question 36

What is the most notable exception to the “usual” Quenching protocol?

Answer 36

CD34, because it will be dissolved by the hydrogen peroxide during quenching so it needs to be applied in between the primary and secondary Ab.

Question 37

What is the purpose of a primary Ab?

Answer 37

It is a large protein (Ab) that binds to other proteins in the patient tissue (Ag).

Question 38

What is the purpose of a secondary Ab?

Answer 38

Secondary Ab bind to the primary Ab and become conjugated into a complex such as the ABC.

Question 39

What are the two different detection systems?

Answer 39

Biotin-(Strept)avidin and polymer.

Question 40

What is a flurophore?

Answer 40

Molecules that “glow” upon excitation with ultraviolet light.

Question 41

What is an enzyme?

Answer 41

Molecules that serve to catalyze certain reactions. In this case, they convert a soluble compound into an insoluble “deposited” chromogen.

Question 42

What is a substrate?

Answer 42

Molecules that react with the enzyme in order to “activate” it.

Question 43

What is a chromogen?

Answer 43

Substances that get “caught in the crossfire” of the enzyme-substrate reaction and are deposited at the Ag site.

Question 44

What fixatives may be used for IHC?

Answer 44

10% Neutral-buffered formalin, Bouin’s, B-5, and Zenker’s fixatives as well as 95% for cytology specimens.

Question 45

How does fixation affect immunoreactivity?

Answer 45

The molecular conformation of most protein antigens is modified in such a way that that antibodies may not be able to accurately recognize the targeted epitopes. This modification is generally referred to as ‘cross-linking’ which results in what is commonly referred to as a ‘masking’ or ‘cloaking’ of epitopes*.

Question 46

What is the effect of decalcification on immunoreactivity?

Answer 46

Many protein epitopes are retained and can be successfully localized by IHC.

Question 47

What are the three types of decalcification?

Answer 47

1. “‘Strong’ mineral/inorganic acids (such as Hydrochloric, Nitric
   and Chromic)
2. Weak’ organic acids (such as Formic, Acetic and Picric); and
3. Chelating agents (such as EDTA).

Question 48

What are commonly employed reagents for Quenching peroxidase activity?

Answer 48

1. Solutions of hydrogen peroxide in DI water or phosphate- or TRIS-buffered saline (PBS/TBS);
2. Solutions of hydrogen peroxide in methanol;
3. Commercially prepared (‘proprietary’) solutions such as UltraBlock™, **Peroxidazed 1™, **DEEB, and **BloxAll

Question 49

What are commonly employed reagents for Quenching Alkaline phosphatase activity?

Answer 49

1. Solutions of Levamisole in DI water;
2. Commercially prepared (‘proprietary’) solutions such as DEEB™ or BloxAll™

Question 50

How are slides that are to be stained with reagents that employ (horseradish-) peroxidase as the ‘label’ pre treated?

Answer 50

are incubated with a weak (i.e. 0.5 to 2.0%) solution of hydrogen peroxide; many labs simply immerse slides in 3% ‘household-grade’ peroxide.

Question 51

What is the scientific basis for “protein blocking”?

Answer 51

To inhibit (non-specific) binding of charged elements to antibody reagents, potentially resulting in non specific staining (background staining).

Question 52

What are some commonly used protein blockers?

Answer 52

1. Powered bovine milk and/or powered albumin;
2. Denatured bovine serum albumin (BSA);
3. Purified or ‘synthetic’ casein (milk protein);
4. Solution of denatured mouse, rabbit, sheep and/or goat serum;

Question 53

What neoplasm does Podoplanin (D2-40) test for?

Answer 53

Podoplanin is selectively expressed in normal and malignant lymphatic endothelium, including Kaposi’s sarcomas, epithelioid mesotheliomas and seminomas.

Question 54

What neoplasm does HBME-1 test for?

Answer 54

Hector Battifora mesothelial-1 (HBME-1) labels thyroid papillary carcinoma and follicular carcinoma but not normal thyroid making it a valuable marker for distinguishing thyroid malignancies from benign thyroid lesions.

Question 55

What neoplasm does Calretinin test for?

Answer 55

Anti-calretinin labels mesothelial and Leydig cells under normal and neoplastic conditions and has been shown to be useful in differentiating mesothelioma from adenocarcinomas of the lung. Control is usually mesothelioma.

Question 56

What neoplasm does CK5/6 test for?

Answer 56

Mesothelioma and lung squamous cell carcinoma but can also be tested on kidney, skin and esophagus.

Question 57

What does Napsin test for?

Answer 57

Lung adenocarcinoma. The polyclonal Napsin A antibody exhibits cross reactivity with a number of non-pulmonary carcinomas such as colorectal carcinoma and renal cell carcinoma.

Question 58

What does TTF-1 test for?

Answer 58

Thyroid transcription factor-1 (TTF-1) is a transcription factor that plays a role in regulating genes expressed within the thyroid, lung, and brain. Anti-TTF-1 immunohistochemistry is useful for identifying carcinomas of thyroid and lung origin and the control type is typically lung adenocarcinoma.

Question 59

The peroxidase staining procedure in which reagents are linked exclusively by antigen-antibody reactions without any conjugation steps is:

Answer 59

Peroxidase-anti-peroxidase

Question 60

The three critical parameters of the heat-mediated antigen retrieval procedure are:

Answer 60

Proper temperature, incubation time, and pH

Question 61

A member of a genetically identical group of molecules or organisms is known as a/an:

Answer 61

Clone.

Question 62

What is an enhancer?

Answer 62

In in-situ hybridization, an enhancer is a DNA-binding protein that influences the translation of genetic sequences.

Question 63

What is an exon?

Answer 63

An exon is a coding sequence of a gene.

Question 64

What is a gene?

Answer 64

A gene is a segment of DNA involved in the production of a specific product, usually a protein.

Question 65

What does A single plasma cell (activated B-cell) produce?

Answer 65

Antibodies specific to a single antigenic determinant

Question 66

The specific substrate of horseradish peroxidase is:

Answer 66

Hydrogen peroxide.

Question 67

Describe the immunoperoxidase technique:

Answer 67

All immunoperoxidase staining techniques use the enzymatic activity of horseradish peroxidase, with its specific substrate, hydrogen peroxide. Horseradish peroxidase catalyzes the release of oxygen from hydrogen peroxide. When this reaction is combined with the oxidation of a chromogenic substrate, such as amino-ethyl-carbazol or diaminobenzidine, a colored polymer is formed that is visible by light microscopy.

Question 68

The ability of an antibody to recognize and bind with a specific protein antigen is due to its:

Answer 68

Dimensional structure. An antibody’s ability to recognize and bind with a specific protein antigen is due to its three-dimensional structure, which fits the shape of the antigen.

Question 69

What determines the dimensional structure of a Ag?

Answer 69

The three-dimensional structure can be determined by the linear amino acid sequence of the antigen epitope, or the conformational shape of the molecule.

Question 70

What is Ab diversity?

Answer 70

Antibody diversity is due to different amino acid sequences of the variable regions of both heavy and light chains. Antibody diversity is based on differences in amino acid sequences which determine three-dimensional structure in the variable regions of both heavy and light chains.

Question 71

When do Fluorochromes fluoresce?

Answer 71

They are illuminated by a specific wavelength of light. Each fluorochrome will fluoresce only when illuminated by a specific wavelength of light. The specific energy of the illumination knocks an electron of the fluorochrome atom to a higher orbit and when it drops back down to its natural orbit it emits a photon of a specific wavelength of lower energy, which we see as a color. FITC, for example, requires a wavelength of 490 nm, which is blue. It emits a lower energy, longer wavelength of 520 nm, which is green.

Question 72

Heat induced epitope retrieval (HEIR) may be used for:
A. all tissue sections, for any antibody
B. all formalin-fixed tissue sections
C. those antibodies for which it has been determined to be optimal
D. frozen sections

Answer 72

Those antibodies for which it has been determined to be optimal.

Question 73

Fluorochromes are available in several colors. In order to see these colors, a fluorescence microscope must be equipped with:

Answer 73

The correct wavelength filters. In order to see specific colored fluorochromes, a fluorescence microscope must be equipped with special filters that provide the proper excitation wavelength of light as well as the proper filters to see the light wavelengths produced.

Question 74

When selecting reagents for peroxidase-anti-peroxidase (PAP) staining, the PAP complex should be prepared in the same (or closely related) animal species as the:

Answer 74

Primary Ab.

Question 75

How is the secondary Ab used in PAP staining?

Answer 75

In PAP staining, the secondary antibody acts as a bridge between primary antibody and the PAP complex, which is raised in the same (or closely related) animal species as the primary antibody. For example, if the primary antibody is rat anti-x, the secondary is made in another animal directed against the first animal, such as goat anti-rat.

Question 76

What are the four main advantages of fluorescent staining?

Answer 76

1. It’s quick and works well in multiplex staining.
2. It has non-masking qualities
3. Sensitivity
4. Labels have a small molecular footprint which makes them easy to conjugate with an Ab.

Question 77

What are the four main disadvantages of fluorescent staining?

Answer 77

1. They fade over time
2. It is difficult to view cell morphology
3. It requires viewing through a specialized microscope.
4. Each fluorophore used needs a specific filter.

Question 78

Which part of the primary Ab does the secondary Ab recognize?

Answer 78

The Fc (constant) portion.

Question 79

What are the three HRP chromogens?

Answer 79

1. Diaminobenzidine (DAB)- Brown
2. Aminoethylcarbazole (AEC)- Red
3. Tetramethylbenzidine (TMB)- Green

Question 80

What are the three AP chromogens?

Answer 80

1. Fast red- fuchsia
2. Fuchsin- fuchsia
3. BCIP-NBT-Blue

Question 81

What are the three main advantages of using enzymatic labels?

Answer 81

1. Permanent
2. Using light microscopy makes it easier to see morphology
3. You only need a light microscope

Question 82

What are the three main disadvantages of using an enzymatic label?

Answer 82

1. It takes more time than fluorescent techniques
2. Its harder to interpret multiple stains due to masking
3. Some chromogens are very toxic (DAB)

Question 83

What is nuclear staining?

Answer 83

The nucleus of the cell is stained by the chromogen. Ex. ER, PR, PAX5, PAX8, SOX10

Question 84

What is membrane staining?

Answer 84

The nuclear membrane is stained by the chromogen. Ex. many CD markers

Question 85

What is cytoplasmic staining?

Answer 85

The cytoplasm of the cell is stained by the chromogen. Ex. PSA for prostatic adenocarcinoma.

Question 86

What is a serial dilution?

Answer 86

A titration series in which each dilution is exactly half as strong as the prior.

Question 87

How does water quality affect IHC staining?

Answer 87

Since both IHC ‘wash’ buffers and retrieval solutions are usually prepared using (DI) distilled/deionized water, it is imperative that it be of the highest quality; ‘poor’ water quality results in incorrect/variable pH values, which may have a significant effect on the binding affinity of primary and secondary antibodies.

Question 88

How does Ab dilution affect staining?

Answer 88

‘Primary’ antibodies that are obtained as concentrates must be stored, prepared and handled properly in order to ensure desired reactivity; concentrates should always be diluted with an appropriate diluent, which is often specified on the datasheet provided by the vendor – use of DI water or PBS/TBS wash buffer as an antibody diluent is not recommended.

Question 89

How do pretreatment procedures affect staining?

Answer 89

it is imperative that such reagents be prepared correctly and used under appropriate conditions; in addition, although the datasheet for a particular antibody may specify use of a citrate-based retrieval solution, for a number of reasons, it may be necessary to pretreat specimens in an EDTA- or Tris- based solution in order to obtain acceptable staining results.

Question 90

How does positive control material affect IHC staining?

Answer 90

It is the only way to properly ‘validate’ a procedure; due to normal, biologic variability in the expression of every ‘marker’, the ideal control specimen (at least for use during validation procedures), will contain three (3) pieces of tissue (or cultured cells) that express the ‘target’ protein in varying amounts – the resulting slides should, therefore, have staining intensities of 1+, 2+, and 3+/4+.

Question 91

What is considered a “mild” Ag retreival?

Answer 91

20 minutes in a citrate buffer and a lab grade waterbath set at 85C.

Question 92

What is considered a “moderate” Ag retreival?

Answer 92

30 minutes in a Tris buffer and a vegetable steamer set at 95C.

Question 93

What is considered a “harsh” Ag retreival?

Answer 93

10 minutes in an EDTA buffer and a programmable pressure cooker set at 120C. It should be noted that this method is not recommended.

Question 94

What is a lyophilized Ab?

Answer 94

A ‘freeze-dried`- Ab that needs to be reconstituted with DI water.

Question 95

What is the staining pattern in this image?