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(Top) 1 Mechanism of action 2 Clinical trials 3 Liver toxicity 4 References

Urelumab

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Urelumab

Whole antibody

Clinical data

Other names

BMS-663513

ATC code

none

Identifiers

CAS Number

934823-49-1^N

ChemSpider

none

UNII

230902QLLC

KEGG

D09984

Chemical and physical data

Formula

C₆₅₀₂H₉₉₇₂N₁₇₁₂O₂₀₃₀S₄₄

Molar mass

146015.89 g·mol⁻¹

^NY (what is this?) (verify)

Urelumab (BMS-663513 or anti-4-1BB antibody) is a fully human, non‐ligand binding, CD137 agonist immunoglobulin‐γ 4 (IgG4) monoclonal antibody.^[1] It was developed utilizing Medarex's UltiMAb(R) technology by Bristol-Myers Squibb for the treatment of cancer and solid tumors.^[2] Urelumab promotes anti-tumor immunity, or an immune response against tumor cells, via CD137 activation.^[2]^[3] The application of Urelumab has been limited due to the fact that it can cause severe liver toxicity.^[4]^[5]^[6]

Mechanism of action[edit]

Urelumab targets the extracellular domain of CD137 (4-1BB).^[7]

CD137 is a co-stimulatory molecule that’s a member of the tumor necrosis factor (TNF) receptor superfamily.^[4] The CD137 gene is located within the chromosome 1 p36 locus.^[8] CD137 is expressed on the surfaces of activated CD8+ and CD4+ T cells, natural killer (NK) cells, dendritic cells, B cells, monocytes, and neutrophils.^[4] Urelumab targets, binds to, and activates the CD137 receptor on these CD137-expressing immune cells.^[2]

The activation of CD137 signaling by Urelumab promotes anti-tumor immunity through a variety of mechanisms.^[2]^[3]

CD137 activation by Urelumab stimulates a strong cytotoxic T cell response against tumor cells which results in tumor clearance.^[8] Urelumab achieves this by promoting the proliferation and survival of activated CD8+ T cells and upregulating their activity and effector functioning by allowing for increased levels of cytokine production (IL-2 and IFN‐γ) and higher cytotoxic capacity of activated CD8+ T cells.^[2]^[5]^[8] It also results in increased formation of memory T cells, which is crucial for creating a long-term anti-tumor response.^[8]

CD137 activation by Urelumab also strengthens other aspects of the innate and adaptive immune response against tumor cells. CD137 activation promotes the proliferation and survival of natural killer cells which carry out antibody-dependent cell-mediated cytotoxicity of tumor cells.^[2] CD137 activation also promotes the proliferation and survival of B cells and CD4+ T cells, the differentiation of monocytes into dendritic cells, and the secretion of cytokines from these cell types.^[8]

Clinical trials[edit]

Because of its ability to promote anti-tumor immunity with memory in cancer patients, Urelumab is an innovative and promising cancer immunotherapy.^[5]

The first phase I trial of Urelumab began in 2006 and final results were published in 2015.^[9]

Current clinical trials combine Urelumab with chemotherapy (NCT00351325), chemoradiation (NCT00461110), ipilimumab (NCT00803374), rituximab (NCT01775631, NCT02420938), cetuximab (NCT02110082), and elotuzumab (NCT02252263), nivolumab (NCT02253992) for metastatic solid tumors, NSCLC, melanoma, B-cell non-Hodgkin lymphoma, colorectal cancer, and multiple myeloma. A biomarker study using CyTOF is also underway.^[7]

Liver toxicity[edit]

The success of Urelumab in promoting anti-tumor immunity in clinical trials has been hampered by the fact that it is dose-limited.^[6] When administered in amounts beyond the maximum tolerated dose, Urelumab has resulted in hepatotoxicity in human patients enrolled in Urelumab clinical studies.^[4]^[5]^[6]

In phase I and II clinical trials, Urelumab caused severe hepatotoxicity in more than 5% of patients enrolled.^[10] After two hepatotoxicity-related deaths in December 2008, enrollment was halted in all urelumab clinical studies globally, but were restarted in 2012.^[11]

Urelumab induces liver toxicity by activating liver Kupffer cells.^[8]^[12] The receptor FcγRIIB is expressed on both CD8+ T cells and liver Kupffer cells.^[5] Because of this, CD8+ T cell activation by Urelumab simultaneously induces the activation of liver Kupffer cells, which causes these macrophages to infiltrate the liver and cause hepatocyte damage.^[5]

Results from integrated safety analyses of Urelumab dosages across Urelumab clinical studies indicates that doses of ≥1 mg/kg every three weeks will result in high levels of hepatotoxicity and transaminitis.^[11] However, Urelumab dosed at 0.1 mg/kg or lower every 3 weeks was demonstrated to be safe, and didn’t result in hepatotoxicity, and is the current recommended maximum tolerated dose in human patients enrolled in Urelumab clinical studies.^[11]

While Urelumab provides promising results for clinical efficacy against tumors, these responses were achieved in mouse models that administered Urelumab above this maximum tolerated dose.^[4] This issue has hindered the clinical success of Urelumab today in establishing anti-tumor immunity in human cancer patients.^[12]

References[edit]

^ Timmerman J, Herbaux C, Ribrag V, Zelenetz AD, Houot R, Neelapu SS, et al. (May 2020). "Urelumab alone or in combination with rituximab in patients with relapsed or refractory B-cell lymphoma". American Journal of Hematology. 95 (5): 510–520. doi:10.1002/ajh.25757. PMC 7383599. PMID 32052473.

^ ^a ^b ^c ^d ^e ^f "Urelumab Overview".

^ ^a ^b "Urelumab". National Cancer Institute.

^ ^a ^b ^c ^d ^e Ho SK, Xu Z, Thakur A, Fox M, Tan SS, DiGiammarino E, et al. (April 2020). "Epitope and Fc-Mediated Cross-linking, but Not High Affinity, Are Critical for Antitumor Activity of CD137 Agonist Antibody with Reduced Liver Toxicity". Molecular Cancer Therapeutics. 19 (4): 1040–1051. doi:10.1158/1535-7163.MCT-19-0608. PMID 31974274. S2CID 210882192.

^ ^a ^b ^c ^d ^e ^f Qi X, Li F, Wu Y, Cheng C, Han P, Wang J, Yang X (May 2019). "Optimization of 4-1BB antibody for cancer immunotherapy by balancing agonistic strength with FcγR affinity". Nature Communications. 10 (1): 2141. Bibcode:2019NatCo..10.2141Q. doi:10.1038/s41467-019-10088-1. PMC 6526162. PMID 31105267. S2CID 256641802.

^ ^a ^b ^c Etxeberria I, Bolaños E, Teijeira A, Garasa S, Yanguas A, Azpilikueta A, et al. (June 2021). "Antitumor efficacy and reduced toxicity using an anti-CD137 Probody therapeutic". Proceedings of the National Academy of Sciences of the United States of America. 118 (26). Bibcode:2021PNAS..11825930E. doi:10.1073/pnas.2025930118. PMC 8255787. PMID 34172583.

^ ^a ^b Yonezawa A, Dutt S, Chester C, Kim J, Kohrt HE (July 2015). "Boosting Cancer Immunotherapy with Anti-CD137 Antibody Therapy". Clinical Cancer Research. 21 (14): 3113–3120. doi:10.1158/1078-0432.CCR-15-0263. PMC 5422104. PMID 25908780.

^ ^a ^b ^c ^d ^e ^f Hashimoto K (May 2021). "CD137 as an Attractive T Cell Co-Stimulatory Target in the TNFRSF for Immuno-Oncology Drug Development" (PDF). Cancers. 13 (10): 2288. doi:10.3390/cancers13102288. PMC 8150789. PMID 34064598.

^ Clinical trial number NCT00309023 for "Study of BMS-663513 in Patients With Advanced Cancer" at ClinicalTrials.gov

^ Cheng LS, Cheng YF, Liu WT, Shen A, Zhang D, Xu T, et al. (September 2022). "A humanized 4-1BB-targeting agonistic antibody exerts potent antitumor activity in colorectal cancer without systemic toxicity". Journal of Translational Medicine. 20 (1): 415. doi:10.1186/s12967-022-03619-w. PMC 9461191. PMID 36076251. S2CID 255963562.

^ ^a ^b ^c Segal NH, Logan TF, Hodi FS, McDermott D, Melero I, Hamid O, et al. (April 2017). "Results from an Integrated Safety Analysis of Urelumab, an Agonist Anti-CD137 Monoclonal Antibody". Clinical Cancer Research. 23 (8): 1929–1936. doi:10.1158/1078-0432.CCR-16-1272. hdl:1805/14978. PMID 27756788. S2CID 19275490.