Carcinoembryonic antigen

Carcinoembryonic antigen
Structure of extracellular domains of CEACAM based on 1e07[1]
Identifiers
SymbolCEACAM
Membranome211

Carcinoembryonic antigen (CEA) describes a set of highly-related glycoproteins involved in cell adhesion. CEA is normally produced in gastrointestinal tissue during fetal development, but the production stops before birth. Consequently, CEA is usually present at very low levels in the blood of healthy adults (about 2–4 ng/mL).[2] However, the serum levels are raised in some types of cancer, which means that it can be used as a tumor marker in clinical tests. Serum levels can also be elevated in heavy smokers.[3]

CEA are glycosyl phosphatidyl inositol (GPI) cell-surface-anchored glycoproteins whose specialized sialofucosylated glycoforms serve as functional colon carcinoma L-selectin and E-selectin ligands, which may be critical to the metastatic dissemination of colon carcinoma cells.[4][5][6] Immunologically they are characterized as members of the CD66 cluster of differentiation. The proteins include CD66a, CD66b, CD66c, CD66d, CD66e, CD66f.

History

CEA was first identified in 1965 by Phil Gold, a Canadian physician, scientist and professor and Samuel O. Freedman who is also a Canadian professor of immunology in human colon cancer tissue extracts.[7]

Diagnostic significance

The CEA blood test is not reliable for diagnosing cancer or as a screening test for early detection of cancer.[8] Most types of cancer do not result in a high CEA level.[9]

Serum from individuals with colorectal carcinoma often has higher levels of CEA than healthy individuals (above approximately 2.5ng/mL).[10] CEA measurement is mainly used as a tumor marker to monitor colorectal carcinoma treatment, to identify recurrences after surgical resection, for staging or to localize cancer spread through measurement of biological fluids.[11] CEA levels may also be raised in gastric carcinoma, pancreatic carcinoma, lung carcinoma, breast carcinoma, and medullary thyroid carcinoma, as well as some non-neoplastic conditions like ulcerative colitis, pancreatitis, cirrhosis,[12] COPD, Crohn's disease, hypothyroidism[13] as well as in smokers.[14] Elevated CEA levels should return to normal after successful surgical removal of the tumor and can be used in follow up, especially of colorectal cancers.[15]

CEA elevation is known to be affected by multiple factors. It varies inversely with tumor grade; well-differentiated tumors secrete more CEA. CEA is elevated more in tumors with lymph node and distant metastasis than in organ-confined tumors and, thus, varies directly with tumor stage. Left-sided tumors generally tend to have higher CEA levels than right-sided tumors.[16] Tumors causing bowel obstruction produce higher CEA levels.[16] Aneuploid tumors produce more CEA than diploid tumors.[17] Liver dysfunction increases CEA levels as the liver is the primary site of CEA metabolism.[3]

Antibodies

Immunohistochemistry using antibodies against CEA in a hepatocellular carcinoma, showing the typical canalicular pattern.[18]

An anti-CEA antibody is an antibody against CEA. Such antibodies to CEA are commonly used in immunohistochemistry to identify cells expressing the glycoprotein in tissue samples. In adults, CEA is primarily expressed in cells of tumors (some malignant, some benign) [19] but they are particularly associated with the adenocarcinomas, such as those arising in the colon, lung, breast, stomach, or pancreas. It can therefore be used to distinguish between these and other similar cancers. For example, it can help to distinguish between adenocarcinoma of the lung and mesothelioma, a different type of lung cancer which is not normally CEA positive. Because even monoclonal antibodies to CEA tend to have some degree of cross-reactivity, occasionally giving false positive results, it is commonly employed in combination with other immunohistochemistry tests, such as those for BerEp4, WT1, and calretinin.[20] For cancers that highly express CEA, targeting CEA through radioimmunotherapy is one of the therapy approaches.[21] Engineered antibodies such as single-chain Fv antibodies (sFvs) or bispecific antibodies have been used for targeting and therapy of CEA expressing tumors both in vitro and in vivo with promising results [22][23] Regions of high CEA levels in the body can be detected with the monoclonal antibody arcitumomab.[24]

Genetics

CEA and related genes make up the CEA family belonging to the immunoglobulin superfamily.

In humans, the carcinoembryonic antigen family consists of 29 genes, 18 of which are normally expressed.[25] The following is a list of human genes which encode carcinoembryonic antigen-related cell adhesion proteins: CEACAM1, CEACAM3, CEACAM4, CEACAM5, CEACAM6, CEACAM7, CEACAM8, CEACAM16, CEACAM18, CEACAM19, CEACAM20, CEACAM21

Clinical trials

CEA is expressed in many different types of cancer like lung, gastric , pancreatic and colorectal cancer. Many clinical trials have been performed .

CEA is used as tumor biomarker that can be used for Targeted Radionuclide Therapy. The cT84.66 is a chimeric antibody of murine origin that has been tested in phase I clinical trials with 111-In and 90-Yttrium.[26][27] 111-In and 90-Y are β- emitters that are used in clinics for imaging and therapy respectively. The results were promising but a number of patients demostrated immune responses and they had to withdraw from participating in the clinical trial.[28] The cT84.66 antibody was huminized and in 2020, a phase I clinical trial was performed during which 18 cancer patients received an injection of 90Y-DOTA-M5A.[29] The results of this trial demonstrated a stable disease for 10/18 patients ( 56%) and had no immunogenic response.

M5A-DOTA was coupled with 225-Ac , which is an alpa emitter, and an in vivo study was performed where cytokine therapy was combined with a-therapy.[30] The result of the study revealed the benefit of combining these two treamtents. Based on the results of this study, an ongoing clinical phase I study is currently underway (NCT05204147). The goal of this study is to establish the safety level and THE possible benefit of administrating M5A-DOTA-225-Ac.


See also

References

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  2. ^ Gan N, Jia L, Zheng L (2011-10-28). "A sandwich electrochemical immunosensor using magnetic DNA nanoprobes for carcinoembryonic antigen". International Journal of Molecular Sciences. 12 (11): 7410–23. doi:10.3390/ijms12117410. PMC 3233412. PMID 22174606.
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  22. ^ Chester, Kerry A.; Mayer, Astrid; Bhatia, Jeetendra; Robson, Lynda; Spencer, Daniel I. R.; Cooke, Stephen P.; Flynn, Aiden A.; Sharma, Surinder K.; Boxer, Geoffery; Pedley, R. Barbara; Begent, Richard H. J. (19 July 2000). "Recombinant anti-carcinoembryonic antigen antibodies for targeting cancer". Cancer Chemotherapy and Pharmacology. 46 (S1): S8–S12. doi:10.1007/PL00014055. PMID 10950140. S2CID 2199095.
  23. ^ Bacac, Marina; Fauti, Tanja; Sam, Johannes; Colombetti, Sara; Weinzierl, Tina; Ouaret, Djamila; Bodmer, Walter; Lehmann, Steffi; Hofer, Thomas; Hosse, Ralf J.; Moessner, Ekkehard; Ast, Oliver; Bruenker, Peter; Grau-Richards, Sandra; Schaller, Teilo; Seidl, Annette; Gerdes, Christian; Perro, Mario; Nicolini, Valeria; Steinhoff, Nathalie; Dudal, Sherri; Neumann, Sebastian; von Hirschheydt, Thomas; Jaeger, Christiane; Saro, Jose; Karanikas, Vaios; Klein, Christian; Umaña, Pablo (1 July 2016). "A Novel Carcinoembryonic Antigen T-Cell Bispecific Antibody (CEA TCB) for the Treatment of Solid Tumors". Clinical Cancer Research. 22 (13): 3286–3297. doi:10.1158/1078-0432.CCR-15-1696. PMID 26861458. S2CID 2605514.
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  26. ^ Wong, Jeffrey Y. C.; Thomas, Gail E.; Yamauchi, Dave; Williams, Lawrence E.; Odom-Maryon, Tamara L.; Liu, An; Esteban, Jose M.; Neumaier, Michael; Dresse, Stephanie; Wu, Anna M.; Primus, F. James; Shively, John E.; Raubitschek, Andrew A. (1997-12-01). "Clinical Evaluation of Indium-111-Labeled Chimeric Anti-CEA Monoclonal Antibody". Journal of Nuclear Medicine. 38 (12): 1951–1959. ISSN 0161-5505. PMID 9430476.
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  29. ^ Akhavan, David; Yazaki, Paul; Yamauchi, Dave; Simpson, Jennifer; Frankel, Paul H.; Bading, James; Colcher, David; Poku, Kofi; Chen, Yi-Jen; Lim, Dean; Cristea, Mihaela; Wu, Anna; Shively, John; Wong, Jeffrey Y. C. (February 2020). "Phase I Study of Yttrium-90 Radiolabeled M5A Anti-Carcinoembryonic Antigen Humanized Antibody in Patients with Advanced Carcinoembryonic Antigen Producing Malignancies". Cancer Biotherapy & Radiopharmaceuticals. 35 (1): 10–15. doi:10.1089/cbr.2019.2992. ISSN 1557-8852. PMC 7044770. PMID 31910346.
  30. ^ Minnix, Megan; Kujawski, Maciej; Poku, Erasmus; Yazaki, Paul J.; Wong, Jeffrey Y.; Shively, John E. (2022-06-30). "Improved Tumor Responses with Sequential Targeted α-Particles Followed by Interleukin 2 Immunocytokine Therapies in Treatment of CEA-Positive Breast and Colon Tumors in CEA Transgenic Mice". Journal of Nuclear Medicine. 63 (12): 1859–1864. doi:10.2967/jnumed.122.264126. ISSN 0161-5505. PMC 9730924. PMID 35772959.