ColoSeq Tumor Panel

General Information

Lab Name

ColoSeq Tumor Panel

Lab Code

CSQTP

Epic Ordering

Order using "UW Genetics and Solid Tumor Test Request"
Place a separate order to draw the paired blood sample.

See tip sheet for more information (internal link).

Description

ColoSeq™ Tumor Panel is designed to detect somatic mutations in the genes on the ColoSeq™ Panel, with specific focus on identifying mutations in the mismatch repair genes. Somatic mismatch repair (MMR) mutations have been reported in colon and endometrial cancers which have IHC loss of MMR protein(s) and normal (negative) germline MMR testing.

ColoSeq™ Tumor Panel is an option for patients who have had abnormal MMR IHC but normal germline testing, such as ColoSeq™.

ColoSeq™ Tumor Panel is an assay for tumor samples that detects mutations in the genes included in this panel. MSI testing and BRAF codon 600 testing are included in the panel for colon cancer. Next-generation sequencing is performed on an Illumina instrument to detect single nucleotide variants, insertions, deletions, gene amplifications, and selected translocations.

NOTE: a peripheral blood control sample is needed in addition to tumor tissue if germline ColoSeq™ testing was not performed previously in this laboratory.

ColoSeq Tumor Single Gene [CSQTS] is also available for the analysis of single gene(s) from the ColoSeq™ Tumor Panel.

For information on germline ColoSeq™ Lynch and Polyposis Panel (comprehensive colon cancer risk panel) see, ColoSeq - Lynch and Polyposis Panel [COSEQ]

ColoSeq™ Panel Genes

Gene	Function/Pathway	Heterozygote Cancer Risk*	Associated disease/syndrome	References
AKT1	AKT signaling	Breast, Thyroid	Cowden-like	23246288
APC	WNT signaling	Colon	Familial adenomatous polyposis	20301519
ATM	Double stranded break repair	Breast, Pancreatic	Ataxia telangiectasia (recessive)	16832357, 19781682, 22585167
AXIN2	WNT signaling	Colon	Colon cancer, oligodontia	15042511
BAPI	BRCA1-associated protein complex	Uveal Melanoma, Mesothelioma	BAP1 Tumor predisposition syndrome	21874000, 21874003
BMPR1A	TGF-beta signaling	Colon	Juvenile Polyposis	20301642
BRAF	Serine/Threonine protein kinase	Typically somatic or mosaic only	Typically somatic only, association with MLH1 promoter hypermethylation in colon cancer and Cardiofaciocutaneous syndrome when mosaic	20301365
CDH1	Cell adhesion	Breast, Gastric	Hereditary diffuse gastric cancer	20301318
CDKN2A	Cell cycle	Pancreatic, Melanoma	Familial melanoma and pancreatic cancer	19585149
CHEK2	Double stranded break repair	Breast	Hereditary breast cancer	11967536
CTNNA1	Beta-catenin, e-cadherin complex	Gastric	Hereditary diffuse gastric cancer	23208944
CTNNB1	WNT signaling	Typically somatic only	Colon cancer, endometrial cancer, desmoid tumors, colon adenomas	33115416, 37048063
ENG	Transforming growth factor-beta (TGFB) receptor complex and binds TGFB1	Colon polyps, telangiectasia	Hereditary Hemorrahagic Telangiectasia, type 1), potential colon polyposis syndrome	23399955, 16287957
GALNT12	O-glycosylation	Colon	unknown	19617566, 22461326
GREM1	BMP antagonist	Colon	Hereditary mixed polyposis syndrome	22561515
MBD4	Mismatch DNA repair	Uveal Melanoma, myelodyplastic disease, colon polyposis	Polyposis, multi-organ tumor predisposition (recessive)	32239153, 35460607, 30049810
MLH1	Mismatch DNA repair	Colon, Ovarian, Endometrial	Lynch syndrome	20301390
MLH3	Mismatch DNA repair	Polyposis (recessive)	unknown	30573798
MRE11A	Double stranded break repair	Breast	Ataxia-telangiectasia-like disorder (recessive)	10612394, 19383352
MSH2 (+EPCAM)	Mismatch DNA repair	Colon, Ovarian, Endometrial	Lynch syndrome	20301390
MSH3	Mismatch DNA repair	Polyposis	Familial adenomatous polyposis 4 (recessive)	27476653, 35675019, 38243056
MSH6	Mismatch DNA repair	Colon, Endometrial	Lynch syndrome	20301390
MUTYH	DNA repair	Colon	MUTYH-associated polyposis (recessive)	20301519, 21952991
NTHL1	Base excision repair	Colon polyps, Endometrial, Breast, Pancreatic	Hereditary cancer with colon polyposis (recessive)	25938944, 26431160
PDGFRA	Protein tyrosine kinase	GIST, often somatic	Familial, sporadic GIST	25975287, 23036227
PIK3CA	AKT signaling	Breast, Thyroid	Cowden-like	22729224, 23246288
PMS2	Mismatch DNA repair	Colon, Endometrial	Lynch syndrome	20301390
POLD1	DNA Polymerase	Colon, Endometrial	Familial polyposis, colorectal cancer	23263490, 23770608
POLE	DNA Polymerase	Colon	Familial polyposis, colorectal cancer	23263490
POT1	Telomere maintenance	Melanoma, CLL, Sarcoma, Glioma, Colon, Thyroid, Breast	Multi-organ tumor predisposition	23502782, 24686849, 28853721, 37140166
PTCH1	Hedgehog	Basal cell carcinoma, PNET	Nevoid basal cell-carcinoma syndrome	8681379, 8658145, 20301330
PTEN	PI3K/MAPK Signaling	Breast	Cowden syndrome	20301661
RNF43	WNT signaling	Colon	Sessile Serrated Polyposis	27329244, 27081527
RPS20	Ribosomal protein	Colon	unknown	24941021
RSPO3	WNT signaling	Typically somatic only	Colon cancer	29127379, 37048063
SMAD4	TGF-beta signaling	Colon	Juvenile Polyposis	20301642
TP53	Cell growth	Breast, Ovarian	Li-Fraumeni syndrome	22006311, 20301488

For previous versions of ColoSeq™ - Lynch and Polyposis Panel, see Previous Versions, COSEQ.

References

Pritchard CC, et al. ColoSeq provides comprehensive lynch and polyposis syndrome mutational analysis using massively parallel sequencing. J Mol Diagn 2012, 14:357-66. 22658618
Walsh T, et al. Detection of inherited mutations for breast and ovarian cancer using genomic capture and massively parallel sequencing. Proc Natl Acad Sci U S A 2010, 107:12629-33. 20616022
Nord AS, Lee M, King MC, and Walsh T. Accurate and exact CNV identification from targeted high-throughput sequence data. BMC Genomics 2011, 12:184. 21486468
Metzker ML. Sequencing technologies - the next generation. Nat Rev Genet 2010, 11:31-46. 19997069
Rhees J, Arnold M, and Boland CR. Inversion of exons 1-7 of the MSH2 gene is a frequent cause of unexplained Lynch syndrome in one local population. Fam Cancer 2014, 13:219-25. 24114314
Mensenkamp AR, et al. Somatic mutations in MLH1 and MSH2 are a frequent cause of mismatch-repair deficiency in Lynch syndrome-like tumors. Gastroenterology 2014, 146:643-646.e8. 24333619
Haraldsdottir S, et al. Colon and endometrial cancers with mismatch repair deficiency can arise from somatic, rather than germline, mutations. Gastroenterology 2014, 147:1308-1316.e1. 25194673
Salipante SJ, Scroggins SM, Hampel HL, Turner EH, and Pritchard CC. Microsatellite instability detection by next generation sequencing. Clin Chem 2014, 60:1192-9. 24987110

Forms & Requisitions

Requisition Form and Ordering Instructions:

1. Fill out a Genetics Requisition Form

Providers with access to the UW implementation of Epic (i.e., FHCC, HMC, SCCA, UWMC, UWNW) may order this test using the order "UW Genetics and Solid Tumor Test Request." See tip sheet for more information (internal link).

2. Check "ColoSeq™ – Tumor Panel" or "ColoSeq™ - Tumor Single Gene" as desired.

3. For ColoSeq™ - Tumor Single Gene, specify gene in space provided.

4. Unless prior germline testing was performed at University of Washington, also select: "Normal Control (blood)."

5. Select the appropriate “Specimen Submitted."

6. Submit test requisition with peripheral blood sample and a copy of the tumor pathology report.

NOTE: Tumor specimen will be requested directly, by UW Laboratory Medicine and Pathology, from the originating pathology department, and therefore, in most cases, it is not necessary to submit tumor block or slides.

Synonyms

AKT1, APC, ATM, AXIN2, BAP1, biallelic somatic, BMPR1A, BRAF, CDH1, CHEK2, ColoSeq, COSEQ, CTNNA1, CTNNB1, double somatic, ENG, EPCAM, GALNT12, GREM1, hereditary nonpolyposis colorectal cancer, HNPCC, Lynch syndrome, MBD4, MLH1, MLH3, MSH2, MSH3, MSH6, MUTYH, NTHL1, PDGFRA, PIK3CA, PMS2, POLD1, POLE, POT1, PTEN, RNF43, RPS20, RSPO3, SMAD4, TP53

Components

Code	Name
CTPGS	ColoSeq Tumor Gene Sequenced
CTPRE	ColoSeq Tumor Result
CTPIN	ColoSeq Tumor Interpretation
CTPCH	ColoSeq Tumor Clinical History
CTPMT	ColoSeq Tumor Methods
CTPDI	ColoSeq Tumor Director

Interpretation

Method

Next-generation sequencing.

This assay sequences all exons, flanking intronic splice site sequences, and select promoter regions of AKT1, APC, ATM, AXIN2, BAP1, BMPR1A, BRAF, CDH1, CHEK2, CTNNA1, CTNNB1, ENG, EPCAM, GALNT12, GREM1, MBD4, MLH1*, MLH3, MSH2*, MSH3, MSH6*, MUTYH, NTHL1, PDGFRA, PIK3CA, PMS2, POLD1, POLE, POT1, PTEN, RNF43, RPS20, RSPO3, SMAD4, TP53. Gene introns are also sequenced for genes indicated above with an asterisk (*). Sequences are aligned to the human genome reference (HG38). Test performed by targeted capture for listed genes followed by next-generation sequencing with Illumina technology. This test was developed and its performance characteristics determined by the University of Washington Department of Laboratory Medicine. It has not been cleared or approved by the US Food and Drug Administration. This laboratory is certified under the Clinical Laboratory Improvement Amendments (CLIA) as qualified to perform high complexity clinical laboratory testing. This test is used for clinical purposes. It should not be regarded as investigational or for research.

Reference Range

See individual components

Ref. Range Notes

No mutations detected.

References

Pritchard CC, et al. ColoSeq provides comprehensive lynch and polyposis syndrome mutational analysis using massively parallel sequencing. J Mol Diagn 2012, 14:357-66. 22658618
Walsh T, et al. Detection of inherited mutations for breast and ovarian cancer using genomic capture and massively parallel sequencing. Proc Natl Acad Sci U S A 2010, 107:12629-33. 20616022
Nord AS, Lee M, King MC, and Walsh T. Accurate and exact CNV identification from targeted high-throughput sequence data. BMC Genomics 2011, 12:184. 21486468
Metzker ML. Sequencing technologies - the next generation. Nat Rev Genet 2010, 11:31-46. 19997069
Rhees J, Arnold M, and Boland CR. Inversion of exons 1-7 of the MSH2 gene is a frequent cause of unexplained Lynch syndrome in one local population. Fam Cancer 2014, 13:219-25. 24114314
Mensenkamp AR, et al. Somatic mutations in MLH1 and MSH2 are a frequent cause of mismatch-repair deficiency in Lynch syndrome-like tumors. Gastroenterology 2014, 146:643-646.e8. 24333619
Haraldsdottir S, et al. Colon and endometrial cancers with mismatch repair deficiency can arise from somatic, rather than germline, mutations. Gastroenterology 2014, 147:1308-1316.e1. 25194673
Salipante SJ, Scroggins SM, Hampel HL, Turner EH, and Pritchard CC. Microsatellite instability detection by next generation sequencing. Clin Chem 2014, 60:1192-9. 24987110

Guidelines

Next-Generation Sequencing Panels Preauthorization

Ordering & Collection

Specimen Type

Formalin-Fixed Paraffin Embedded Tumor Tissue (FFPE), Purified DNA, Peripheral Blood, cultured cells from skin biopsy, purified DNA from peripheral blood or cultured cells, saliva

Collection

Tumor specimen will be requested directly, by UW Laboratory Medicine, from the originating pathology department. In order to facilitate this, a pathology report should be submitted with the test requisition, blood control and other clinical and billing paperwork.

NOTE: This test requires BOTH tumor tissue and peripheral blood. Only tumor tissue is required if ColoSeq™ testing on peripheral blood has been done previously at UW Lab Medicine.

Tumor Tissue:

If the tumor specimen is being submitted by the ordering provider, tissue samples (FFPE) either (a) slides, OR (b) tissue block are required.

(a) Instructions for slide specimens: 1 slide at 4-micron thickness stained with hematoxylin-and-eosin AND 20 unstained, non-baked slides at 10-micron thickness (a minimum of 10 unstained slides is acceptable). Unstained slides can be on charged or uncharged slides. Note: Sections should contain as much tumor tissue as possible.

(b) Instructions for tissue block specimen: Provide complete tissue block containing tumor tissue. If there is more than one tissue block, please provide the block that has the greatest amount of tumor tissue. Tissue block will be returned at completion of testing. Ship at room temperature.

NOTE: If germline MMR testing was performed in a different laboratory, a peripheral blood sample should be submitted in addition to tumor tissue.

Germline control sample:

BLOOD:

10 mL whole blood in LAVENDER TOP EDTA tube.
Also acceptable: YELLOW TOP ACD tube, purified DNA from peripheral blood or cultured cells.

SALIVA:
Contact laboratory for validated collection kit.

SKIN BIOPSY:

Collection and transport: Obtain 2-4 mm punch biopsy of skin sample under sterile conditions and place in transport media (e.g. Alpha-MEM media, RPMI). Transport media can be supplied by the lab; call 206-598-4488 to request. If transport media is not available, the following media are acceptable alternatives if shipping time will not exceed 24 hours: lactated Ringer's solution, viral transport medium, or sterile saline. DO NOT USE formaldehyde, formalin, alcohol, or 5% dextrose, or tissue culture medium buffered with bicarbonate.

CULTURED CELLS:

(2) T23 or (1) T75 flask (minimum 1-T25 flask).

Forms & Requisitions

Requisition Form and Ordering Instructions:

1. Fill out a Genetics Requisition Form

2. Check "ColoSeq™ – Tumor Panel" or "ColoSeq™ - Tumor Single Gene" as desired.

3. For ColoSeq™ - Tumor Single Gene, specify gene in space provided.

4. Unless prior germline testing was performed at University of Washington, also select: "Normal Control (blood)."

5. Select the appropriate “Specimen Submitted."

6. Submit test requisition with peripheral blood sample and a copy of the tumor pathology report.

Handling Instructions

Attach a copy of the pathology report for the tumor sample being submitted.

Ship specimen at room temperature for overnight delivery.

Blood specimens can be held for up to 7 days before shipping if refrigerated.

Ship specimens to:

UW MEDICAL CENTER

LABORATORY MEDICINE - GENETICS LAB

1959 NE PACIFIC ST, ROOM NW220

SEATTLE, WA 98195-7110

Quantity

requested: Entire sample
minimum: Tissue: 10 unstained slides plus one H&E-stained; slide or extracted DNA: 5 microgram AND 5 mL control peripheral blood (DNAPRP)

Processing

Processing: Blood: Refrigerate whole blood

Unacceptable Conditions: Frozen or clotted specimens

Stability (collection to initiation of testing): Ambient: 5 days; Refrigerated: 7 days; Frozen: Unacceptable

Purified DNA: Refrigerate DNA specimens. Frozen is acceptable.

Performance

LIS Dept Code

Genetics (GEN)

Performing Location(s)

UW-MT	Genetics Attention: Genetics Lab Clinical lab, Room NW220 University of Washington Medical Center 1959 NE Pacific Street Seattle, WA 98195 Tel: 206-598–6429 M–F (7:30 AM–4:00 PM) Fax: 206-616-4584 Lab email: cgateam@uw.edu Tel (EXOME only): 206-543-0459	Faculty Jillian Buchan, PhD, FACMG Runjun Kumar, MD, PhD Regina Kwon, MD, MPH Christina Lockwood, PhD, DABCC, DABMGG Brian Shirts, MD, PhD Abbye McEwen, MD, PhD Colin Pritchard, MD, PhD Vera Paulson, MD, PhD Eric Konnick, MD, MS He Fang, PhD

Frequency

Results within 4-6 weeks, once sample arrives in the laboratory.

Available STAT?

Billing & Coding

CPT codes
Billing Comments: For additional test/billing information, see ColoSeq™ Tumor CPT codes.

For pricing information, contact Client Support Services 206-520-4600 or 800-713-5198.

Billing and Insurance Pre-Authorization

We offer insurance pre-authorization services (preauthorization is only done for providers who are external to the UW system).

Email: gpab@uw.edu or call 1-855-320-4869 for more information.

A letter of medical necessity is highly recommended for ColoSeq™ Tumor testing, and a template is available by emailing genelab@uw.edu.

Genetics Preauthorization Form
LOINC: 51967-8
Interfaced Order Code: UOW2961