Tumour Markers (Revision Notes)

Types:

• Hormones:
  • hCG
  • Calcitonin
  • Gastrin
  • Prolactin
• Enzymes:
  • Acid phosphatase
  • Alkaline phosphatase
  • PSA
• Metabolites
  • Norepinephrine
  • Epinephrine
• Normal proteins
  • Thyroglobulin
• Oncofetal antigen
  • CEA
  • AFP
• Receptors
  • ER
  • PR
  • EGFR
• Genetic changes
  • Mutations
  • Translocations

Ideal Tumour Marker:

• Specificity for a single type of cancer
• High sensitivity and specificity for cancerous growth
• Correlation of marker level with tumour size
• Homogenous (i.e. minimal post-translational modifications)
• Short half-life in circulation

Roles:

• Determine risk (PSA)
• Screening (Calcitonin, occult blood)
• Diagnosis (hCG, Catecholamines
• Estimate prognosis (CA125)
• Predict response to therapy (CA15-3, CA125, PSA, hCG)
• Monitoring for recurrence/progression (most widely used role)
• Therapeutic seleciton (her2/neu, kras)

Tumour markers in routine use

Marker	Cancer
CA 15-3, BR 27.29	Breast
CEA, CA 19-9	Colorectal
CA 72.4, CA 19-9, CEA	Gastric
NSE, CYFA 21.1	Lung
PSA, PAP	Prostate
CA 125	Ovarian
Calcitonin, thyroglobulin	Thyroid
hCG	Trophoblastic
CA 19-9, CEA	Pancreatic
AFP, CA 19-1	Hepatocellular
BAP, Osteocalcin, NTx	Bone
Catecholamines, metabolites	Pheochromocytoa
Fecal occult blood	Colon cancer

Normal Serum Levels

AFP:

• Hepatocellular carcinoma
• Germ cell tumors
  • Non-seminomas: both AFP and hcG elevated in 90%
  • Seminomas: AFP not elevated, hCG elevated in 30%
• Not directly related to tumour size
• Elevated in pregnancy, liver disease (hepatitis, cirrhosis, GI tumours)
• AFP tumour-specific glycoforms may improve specificity of AFP for HCC

CEA:

• CEA 150-300 kDA glycoprotein
• Elevated in smokers and elderly
• Elevated in breast, pancreatic, GI and lung cancer
  • Breast cancer: used for detecting and monitoring metastatic disease
• Elevated in benign diseases: cirrhosis, emphysema and rectal polyps
• CEA: Not useful for CRC screening
• New more specific marker for CRC: TIMP-1 (Tissue inhibitor of metalloprotease)

CA 15-3/CA 27.29

• High molecular weight glycoprotein (Polymorphic epithelial mucin)
• Breast cancer marker:
  • Correlate with stage and tumor size
  • Prognosis and predict response to chemotherapy
  • Detect residual disease following initial therapy
  • Detect recurrence, correlates with disease progression or regression
  • Not sensitive enough for early detection
• Elevated in benign diseases of liver and breast
• Elevated in other cancers: pancreatic, lung, ovarian, colorectal and liver

CA 125

• 200-2000 kDa glycoprotein

• Increased in benign diseases: pregnancy, endometriosis, ovarian cysts, PID, cirrhosis, hepatitis, pericarditis
• Increased in other cancers: lung, breast, GI, endometrial and pancreatic
• Synthesis modified by Taxol

Cytokeratin fragment 21-1

• Cytokeratins are intermediate filament structural proteins found in cytoskeleton of epithelial cells
• Increased CYFRA 21-1 seen in all histologic types of lung cancer but especially NSCLC
• CYFRA 21-1 is used for diagnosis, prognosis and monitoring after chemotherapy
• May be increased in benign respiratory disease, urological, gastrointestinal and gynaecological cancers

Thyroglobulin:

• Monitoring of the recurrence or metastasis of differentiated thyroid cancer (papillary/follicular)

Prostate specific antigen

• PSA Forms/measurements:

  • 55-95% PSA complexed with antichymotrysin (PSA-ACT)
  • 5-45% free PSA (fPSA)
  • Total PSA=fPSA +PSA-ACT

• Total PSA ranges:

  • 0-4 ng/mL = Low risk of PCA (22% positive)
  • 4-10 ng/mL = diagnostic gray zone (PCA & BPH)

  • 10 ng/mL = 40-50% with PCA

  Enhancing Differential Diagnosis PCA – PSA velocity – increases over time – % fPSA – PSA density – tPSA/prostatic volume – Age-race- adjusted reference ranges

Free PSA (fPSA) • Unbound portion of PSA is inversely related to probability of prostatic carcinoma • Differentiation from carcinoma and BPH

When the total PSA is between 4 and 10 ng/mL:

%Free PSA	Probability of carcinoma
0 - 10	56%
10 - 15	28%
15 - 20	20%
20 - 25	16%
> 25

Prostate specific antigen clinical applications

• Early detection in conjunction with DRE
  • PSA >10 ng/mL with +DRE = Biopsy
  • PSA 4-10 ng/mL and –DRE = Biopsy
• Determine success of radical prostatectomy
• Recurrence following treatment
• Monitoring hormonal treatment

Genetic tumor markers and disease:

Oncogenes:

• N-ras: leukemia
• K-ras: colon/ gastric
• C-erB-2: Breast/gastric
• N-myc: Breast/Neuro
• c-abl/bcr: CML
• bcl-2: leukemia/lymp
• HER-2/INT2/ATM/
• H-ras: Breast
• MCC: colon

Tumor Suppressors:

• p53: Breast/colon/lung
• RB1: Retinoblastoma
• WT1& 2: Renal
• BRCA1& 2: Breast/
• pancreatic/Ovarian
• BRCA1:prostate/stom.
• APC: Colorectal
• MTS1: Melanoma
• DCC: colon/gastric

Estrogen and progesterone receptors

• ER positive have more favorable prognosis within first 5 y after diagnosis
• Hormone therapy blocks binding of estrogen to estrogen receptors:
  • Block receptor using tamoxifen or aromatase inhibitors
  • 60% of patients with primary tumors with ER/PR respond to hormone therapy
• ER/PR measured in tumor tissue by immunohistochemistry or ELISA (tumor tissues)

HER-2/neu (c-erbB-2)

• 185 kDa tyrosine kinase growth factor receptor
• Gene amplification/overexpession occurs in 30% patients & correlates with aggressive disease & shortened survival
• Moderate negative predictive factor for response to endocrine therapy or alkylating agents
• Strong predictive factor for response to trastuzumab (Herceptin)
• Methods approved by FDA: FISH and IHC
• 3+ : Positive
• 2: FISH
• 0/1: Negative

Other companion diagnostic tests:

Biomarker	Drug	Cancer
Her2.neu	Trastuzumab	Breast ca
KRAS	Cetuximab, panitumumab	Colorectal
BRAF	Vemurafenib	Melanoma
ALK Fusion	Crizotinib	NSCLC
EGFR	Gefitinib, erlotinib	NSCLC
BCR-ABL translocation	Imatinib, dasatinib, nilotinib	CML

RT-PCR for circulating tumor cells

• Prostate Cancer: PSA, PSMA
• Breast Cancer: Cytokeratin 19, CEA, MUC1, hMAM
• Melanoma: Tyrosinase, MART1, MAGE3, GAGE

mRNA Microarrays

• Large mRNA and DNA arrays (Affymetrix, Illumina) enable unfocused genomic signature analysis.
• Oncotype DX and Mamaprint enable prediction of therapeutic success in breast cancer.
• Tumor of Origin enables identification of the tissue origin of metastasis.

Oncotype Dx:

• 16 Cancer and 5 Reference Genes
• Proliferation:
  • Ki-67
  • STK15
  • Survivin
  • Cyclin B1
  • MYBL2
• Estrogen:
  • ER
  • PR
  • BCL2
  • SCUBE2
• HER2:
  • GRB7
  • HER2
• INVASION:
  • Stromelysin 3
  • Cathepsin L2
• GSTM1
• BAG1
• CD68

REFERENCE GENES

• Beta-actin
• GAPDH
• RPLPO
• GUS
• TFRC

Category	RS (0-100)
Low risk	RS <18
Int risk	RS ≥18 and <31
High risk	RS ≥31

Cancer Genomics Examples: