Post on 07-Apr-2019
Importancia del patólogo en los
tumores de origen desconocido
Dr. Federico Rojo
Fundación Jiménez Díaz, Madrid IMIM-Hospital del Mar, Barcelona
• 3-5 % of diagnosed cancers
• Variability depending of centers
• 60% adenocarcinomas
• Immunohistochemistry helps in 30-85%
• Metastases to liver (25%) and bone (25%)
• Prognosis depends of identification of primary site or actionable genomic alterations.
Cancer unknown primary
• Adenocarcinoma (50%)
• Poorly Differentiated Carcinomas (35%)
• Squamous Cell Carcinoma (5%)
• Neuroendocrine Carcinoma (5%)
• Undifferentiated Carcinoma (5%)
Morphology of carcinomas of unknown primary site
Oien, KA & Dennis, JL. Ann Oncol 2012
Primary sites determined at autopsy in 884 patients with unknown primary cancer
Pentheroudakis, G et al. Eur J Cancer 2007
Greco, FA. JNCI 2013
Clinical landscape of cancer unknown primary over decades
• Cytokeratins
• Organo-specific markers (PSA, Thyroglobuline, GCDFP-15, Hepatocite)
• Non-organ-specific markers (CEA, p63, ER/PR, HMB45, Melan-A)
IHC for CUP: performance and practice
Screening IHC markers for the diagnosis of CUP
Oien, KA & Dennis, JL. Ann Oncol 2012
Massard, C. et al. Nat. Rev. Clin. Oncol. 2011
CK profile of frequently occurring primary cancers
(70-90%)
(70-90%)
(90%)
(90%)
Mesothelioma
Neuroendocrine cancer Squamous cell cancer
• GCDFP-15 (sensitivity, 55%; highest in lobular and apocrine; independent of grade, ER status, mitotic index; also expressed in vulva, eyelid; never expressed in lung, colon, ovary)
• Mamaglobin (sensitivity 46,6%,
combined with GCDFP-15,
sensitivity 69%)
• ER, PR
Mamoglobin
Cancer of unknown origin Breast cancer markers
GCDFP-15
• Villin (sensitive for colon ca; 5% lung adenoca)
• CDX-2 (sensitive for colon ca; occasionally positive in mucinous ovarian or bladder adenoca)
• CK7 / CK20
Cancer of unknown origin GI cancer markers
Villin
CDX-2
• 38 kd member of the NKx-2 family of transcription factors
• Thyroid, respiratory epithelium and diencephalon
• Lung tumors (highest in neuroendocrine and bronchioloalveolar; lowest in squamous and mucinous)
• Occasional rectal and ovarian adenoc.
• Positive in thyroid and neuroendocrine tumors
TTF-1
Molecular profiling for CUP
• One gene
• Multiple genes
Strategy #1.
Molecular alterations of tumor sites
• 63 year old woman
• Disseminated cancer (liver and lung) with pleural effusion
• Pleural cytology: Positive for malignancy, consistent with adenocarcinoma, CK7 positive, CK20 and TTF-1 negatives
Targetable single gene analysis in CUP
Targetable single gene analysis in CUP: EGFR mutation
L858R
Control
Targetable single gene analysis in CUP: EGFR mutation
Pleural metastasis from pulmonary adenocarcinoma with EGFR mutation
Treatment with EGFR TKI
Quest-Lab Corp
CUPPrint Pathworks Gene Search
Epitype CancerTYPE miRview mets
Provider Arcturus Bioscience
Agendia Pathworks diagnostics
Veridex bioThera-nostics
Rosetta Genomics
Number of genes
92 495 >1500 10 23 CpG 92 64
Cancer types
39 48 15 6 13 54 42
Method PCR, gene expression
Microarray, gene
expression
Microarray, gene
expression
PCR, gene expression
Methylation array
PCR, gene expression
PCR, miRNA expression
Material FFPE FFPE Fresh frozen /
FFPE
FFPE FFPE FFPE FFPE
Sensitivity (%)
85 83 84 75 NA 87 92
Commercial Tests for Cancer of Unknown Origin
• Identifies the tissue-of-origin for 42 different types of tumors from seven combined classes (sarcoma, kidney, thyroid, neuroendocrine lung, germ cell, astrocytic or oligodendroglial, and pancreatico-biliary adenocarcinoma) which represent over 92% of all cancer types (a dataset that contains 1282 tumours)
• Leverages measure the expression level of 64 miRNA using microarray platform
• Performance characteristics bsed on blinded validation set: sensitivity of 85%, specificity of 99.3%, sensitivity for single answer of 90%
MicroRNA based test to identify primary origin of metastasis
Varadhachary, GR et al. Clin Cancer Res 2011
Prospective miRNA signature study to identify tissue of origin with CUP
• Database of 2140 tumors of 58 types and subtypes, grouped into 15 classes: breast, bladder, colorectal, gastric, testicular germ cell, hepatocellular, kidney, non-small-cell lung, non-Hodgkin’s lymphoma, melanoma, ovarian, pancreatic, prostate, sarcoma and thyroid
• Microarray-based test that measures the expression of >1600
genes
• Pathwork reports similarity scores (SS) compared with each of the 15 tumour classes: SS > 60 agrees with 90% of reference diagnoses
Pathwork tissue of origin test
Pathwork tissue of origin test
• 64 year old woman
• Bilateral ovarian tumors
Courtesy by Dr Matias-Guiu
CK 7 negative; CK 20 positive
• Gastroscopy negative
• Gastric biopsies: Adenocarcinoma with signed ring cells
Gastric carcinoma metastatic to the ovaries
• 50 year old woman.
• Vaginal Bleeding
• Endometrial Biopsy
• Bilateral Ovarian tumors
Courtesy by Dr Matias-Guiu
AEI-AE3 + CA125 – CK7 – CA19.9 – CK 20 + ER, PR – Vimentin – CDX-2 + Villin +
Metastatic adenocarcinoma (signed-ring features) of unknown origin involving the
endometrium and the ovaries
CancerTYPE gene expression signature for molecular cancer classification
• Microarray development and validation on 92 selected genes by RT-PCR • Database containing 2206 tumours of 30 main types and 54 subtypes • Training in 466 frozen, 112 FFPE samples of primary and mx • Validation in 481 frozen, 119 FFPE samples of primary and mx
Ma, XJ et al. Arch Pathol Lab Med 2006
CancerTYPE gene expression signature for molecular cancer classification
Blinded comparation of CancerTYPE with IHC analysis in the diagnosis of primary site
Weiss, LM et al. J Mol Diag 2013
IHC sensitivity: 61% IHC specificity: 99% CancerTYPE sensitivity: 72% CancerTYPE specificity: 99%
• 62 year old woman
• Breast Cancer, 8 years ago (phenotype not available, probably ER+)
• Peritoneal Carcinomatosis
CK7
Mamoglobin, GCFDP-15
ER, PR
High grade carcinoma, CK7 focally +, ER/PR-, HER2-, Mammoglobin-, GCFDP-
15-, WT-, Inhibin-, CA125-
Peritoneal metastasis of breast cancer, TN phenotype
“For some adenocarcinomas, origins are especially difficult to establish because their morphology, IHC and molecular signatures are suggestive but not specific, and diagnostic dilemmas about the primary site are often pairwise, including pancreatic, colonic and gastrooesophageal cancer and their separation, and ovary and lung cancer.”
Erlander MG et al. J Mol Diag 2011 Kerr, SE et al. Clin Cancer Res 2012
Performance of CancerTYPE by tumor: limitations in certains types
Two questions to be addressed: 1. What difference might these molecular tests make to diagnosis and management? 2. What is the impact of molecular tests on the patient outcome?
Molecular profiling for CUP: clinical impact
Difference of molecular tests for CUP in diagnosis and management
Nystrom, SJ et al. Oncotarget 2012
Impact of molecular tests on the patient outcome: Treatment outcomes in patients with CUP and colorectal cancer molecular profile
CUP patients whose molecular profiles suggested colorectal tumour, and who then received colorectal-specific therapy, had survival times longer than historical CUP controls but similar to patients with known metastatic colorectal cancer
Hainsworth, JD et al. Clin Colorectal Cancer 2011
N=42, retrospective
Impact of molecular tests on the patient outcome: Prospective treatment outcomes in patients with CUP and specific molecular profile
Hainsworth, JD et al. J Clin Oncol 2013
Hainsworth, JD et al. J Clin Oncol 2013
Direct site-specific therapy in CUP patients, yielding a median overall survival (12.2 mo) better than survival for historical controls receiving empirical CUP therapy
Impact of molecular tests on the patient outcome: Prospective treatment outcomes in patients with CUP and specific molecular profile
Strategy #2.
Actionable genomic alteration rather than site of origin for personalized therapy
• 61 year old man
• Disseminated bilateral lung nodules cancer
• EBUS cytology: Positive for malignancy, consistent with adenocarcinoma, CK7, CK20 and TTF-1 negatives, EGFR WT, ALK WT
Targetable single gene analysis in CUP
Targetable single gene analysis in CUP: HER2 mutation
T C G T C A
HER2 V842I
Pleural metastasis from probably GI adenocarcinoma with HER2 mutation
Recruited in phase 2 clinical trial of Neratinib in
Patients With Solid Tumors With Somatic Human Epidermal Growth Factor Receptor (EGFR, HER2,
HER3) Mutations or EGFR Gene Amplification
Targeted next generation sequencing of adenocarcinoma of unknown primary site reveals frequent actionable genomic abnormalities and new routes to targeted therapies. J Ross, K Wang, GO Otto, PG Palmer, R Yelensky, D Lipson, J Chmielecki, SM Ali, D Morosini, VA Miller, PJ Stephens USCAP 2014, San Diego, abstract # 2163
236 cancer-related genes (3,769 exons) and 47 introns of 19 genes commonly rearranged. N=127 cancers of unknown origin: liver (24%) lymph nodes (23%), peritoneum (16%), pleura (6%), bone (5%), brain (4%) Next generation sequencing for Actionable Mutations
Genomic Alteration Categories
Highly Actionable
Actionable in Principle
Prognostic
Biologically Significant
Category A: Approved / standard alterations
that predict sensitivity or resistance to
approved / standard therapies
Category B: Alterations that are inclusion or
exclusion criteria for specific experimental
therapies
Category C: Alterations with limited evidence
that predict sensitivity or resistance to
standard or experimental therapies
Category D: Alterations with prognostic or
diagnostic utility
Category E: Alterations with clear biological
significance in cancer (i.e. driver mutations)
without clear clinical implications
• 484 alterations (3.8 per tumor) • 115 cases (91%) showed at least one actionable mutation • The most common actionable mutations were: KRAS (52%), EGFR (21%), STK11 (11%),
PIK3CA (7%), EGFR (7%), NF1 (6%), BRAF (4%) and others • 69% of tumors has an actionable mutation in RTK/RAS pathway.
0%
10%
20%
30%
40%
50%
60%
KR
AS
TP5
3
EGFR
STK
11
LRP
1B
PIK
3C
A
CTN
NB
1
NF1
MD
M2
JAK
2
DN
MT3
A
CD
KN
2A
ATM
TSC
1
CC
NE1
BR
AF
SMA
RC
A4
SMA
D4
RU
NX
1
RB
1
PTP
RD
NO
TCH
1
MYC
MSH
6
MA
P2
K1
MLH
1
MC
L1
GN
AS
FGFR
2
CD
KN
2B
CD
K4
BR
CA
1
AP
C
Pe
rce
nta
ge o
f C
ase
s w
ith
Mu
tati
on
Tumor Type
Genes with Actionable Alterations Genes with Alterations, Actionability Unknown
• Cancer of unknown primary site is common (3%) in cancer diagnoses • Historic treatment of CUP has generally been with empiric
chemotherapy with poor outcome • Diagnostic technology has improved, particularly IHC and molecular
tumor profiling, enabling a tissue-of-origin diagnosis • Conventional pathology and IHC solves 85% of cases • Combination of pathology, IHC and gene expression assays solves
more than 95% of cases • Gene expression tests should be interpreted in the appropriate
pathological context • Patients with CUP who received site-specific treatment directed by
molecular assay seem to improve survival • Next generation sequencing offers identification of actionable
genomic alterations regardless the site of origin
Conclusions