Global ADC Landscape 2026H1
A data-driven, source-traceable analysis of every approved and late-stage antibody-drug conjugate (ADC) and antibody-oligonucleotide conjugate (AOC) worldwide, as of June 30, 2026.
As of June 30, 2026, 23 antibody-drug conjugates (ADCs) have received regulatory approval worldwide, spanning more than ten molecular targets — including HER2, TROP2, CD30, CD33, BCMA, EGFR, FRα, Nectin-4, c-Met, and CD123 — and covering more than ten tumor types, from breast, lung, and gastric cancer to multiple myeloma and nasopharyngeal carcinoma.
A further 4 ADCs and 2 antibody-oligonucleotide conjugates (AOCs) are currently under BLA/NDA review, extending the ADC modality beyond oncology into genetic disease, with two AOC programs targeting Duchenne muscular dystrophy (DMD).
This article compiles a fully sourced, field-by-field breakdown of every program — generic name, company, target, antibody format, payload, linker chemistry, drug-to-antibody ratio (DAR), indication, and regulatory status — followed by an analysis of the three trends defining the sector's next chapter.
Antibody-drug conjugates combine the tumor-targeting precision of a monoclonal antibody with the cell-killing potency of a cytotoxic payload, linked by a chemically engineered bridge. The approach lets clinicians deliver a lethal dose of chemotherapy-grade payload directly to tumor cells while limiting exposure to healthy tissue — a balance that conventional chemotherapy cannot achieve.
Pfizer's Mylotarg (gemtuzumab ozogamicin) became the world's first approved ADC in May 2000. Over the following two-plus decades, the technology has progressed through three generations, with steady improvements in target selection, linker stability, and payload design widening the therapeutic window between efficacy and toxicity.
Twenty-six years later, ADCs are one of the most active fields in oncology drug development — and China-originated programs are increasingly setting the pace rather than following it.
Between 2025 and the first half of 2026, four China-originated ADCs secured NMPA approval: Hengrui Pharmaceuticals' trastuzumab rezetecan (Aiweida), Sichuan Kelun-Biotech's trastuzumab botidotin (Shutailai), Lepu Biopharma's becotatug vedotin (Meiyouheng), and — most notably — Sichuan Baili Pharmaceutical/BMS's izalontamab brengitecan (Yizekang), the world's first approved bispecific ADC.
Domestic programs including Innovent Biologics' IBI343, DualityBio's DB-1303, and LaNova Medicines' LM-302 are now in BLA/NDA review alongside their multinational counterparts, underscoring China's growing share of voice in global ADC innovation.
The 23 programs below are listed in chronological order of first global approval. Each entry includes the antibody format, cytotoxic payload class, linker chemistry, drug-to-antibody ratio (DAR), approved indication, and approving authority — the core variables CDMO and CRO partners evaluate when scoping process development and manufacturing support.
| Generic Name (Trade Name) | Company | Target | Antibody | Payload | Linker | DAR | Indication | First Approval |
|---|---|---|---|---|---|---|---|---|
| Gemtuzumab ozogamicin (Mylotarg) | Pfizer | CD33 | Humanized IgG4 | Calicheamicin (DNA-damaging agent) | Cleavable — AcBut | 2–3 | CD33-positive acute myeloid leukemia (AML) | FDA, May 2000; withdrawn June 2010; re-approved September 2017 |
| Brentuximab vedotin (Adcetris) | Seagen / Takeda | CD30 | Chimeric IgG1 | MMAE (tubulin inhibitor) | Cleavable — Val-Cit (MC-VC-PABC) | 4 | Classical Hodgkin lymphoma; peripheral T-cell lymphoma | FDA, August 2011 |
| Trastuzumab emtansine (Kadcyla) | Genentech (Roche) | HER2 | Humanized IgG1 | DM1 (tubulin inhibitor) | Non-cleavable — SMCC | 3.5 | HER2-positive breast cancer | FDA, February 2013 |
| Inotuzumab ozogamicin (Besponsa) | Pfizer | CD22 | Humanized IgG4 | Calicheamicin (DNA-damaging agent) | Cleavable — AcBut | 6 | Relapsed/refractory B-cell precursor acute lymphoblastic leukemia | EMA, June 2017; FDA, August 2017 |
| Moxetumomab pasudotox (Lumoxiti) | AstraZeneca | CD22 | Murine IgG1 | PE38 (protein synthesis inhibitor) | N/A | N/A | Relapsed/refractory hairy cell leukemia | FDA, September 2018; withdrawn 2023 |
| Polatuzumab vedotin (Polivy) | Genentech (Roche) | CD79b | Humanized IgG1 | MMAE (tubulin inhibitor) | Cleavable — Val-Cit (MC-VC-PABC) | 3.5 | Diffuse large B-cell lymphoma | FDA, June 2019 |
| Enfortumab vedotin (Padcev) | Astellas / Seagen | Nectin-4 | Fully human IgG1 | MMAE (tubulin inhibitor) | Cleavable — Val-Cit (MC-VC-PABC) | 3.8 | Locally advanced or metastatic urothelial cancer | FDA, December 2019 |
| Trastuzumab deruxtecan (Enhertu) | Daiichi Sankyo / AstraZeneca | HER2 | Humanized IgG1 | Dxd (topoisomerase I inhibitor) | Cleavable — GGFG peptide linker | 8 | HER2-positive breast cancer | FDA, December 2019 |
| Sacituzumab govitecan (Trodelvy) | Gilead Sciences | TROP2 | Humanized IgG1 | SN-38 (topoisomerase I inhibitor) | Cleavable — CL2A | 7.6 | Metastatic triple-negative breast cancer | FDA, April 2020 |
| Belantamab mafodotin (Blenrep) | GSK | BCMA | Humanized IgG1 | MMAF (tubulin inhibitor) | Non-cleavable — MC | 4 | Relapsed/refractory multiple myeloma | FDA, August 2020; withdrawn November 2022; re-approved October 23, 2025 |
| Cetuximab sarotalocan (Akalux) | Rakuten Medical | EGFR | Chimeric IgG1 | IR700 (photosensitizer) | N/A | 1.3–3.8 | Colorectal cancer; head and neck cancer (photoimmunotherapy) | PMDA, September 2020 |
| Loncastuximab tesirine (Zynlonta) | ADC Therapeutics | CD19 | Humanized IgG1 | PBD dimer (SG3199, DNA-damaging agent) | Cleavable — Val-Cit | 2.3 | Relapsed/refractory large B-cell lymphoma | FDA, April 2021 |
| Disitamab vedotin (Aidixi (爱地希)) | RemeGen | HER2 | Humanized IgG1 | MMAE (tubulin inhibitor) | Cleavable — Val-Cit (MC-VC-PABC) | 4 | HER2-positive gastric cancer | NMPA, June 2021 |
| Tisotumab vedotin (Tivdak) | Seagen / Genmab | Tissue factor | Humanized IgG1 | MMAE (tubulin inhibitor) | Cleavable — Val-Cit (MC-VC-PABC) | 4 | Recurrent or metastatic cervical cancer | FDA, September 2021 |
| Mirvetuximab soravtansine (Elahere) | ImmunoGen (now AbbVie) | FRα | Fully human IgG1 | DM4 (tubulin inhibitor) | Cleavable — SPDB | 3.4 | Epithelial ovarian, fallopian tube, or primary peritoneal cancer | FDA, November 2022 |
| Sacituzumab tirumotecan (Jiatailai (佳泰莱)) | Sichuan Kelun-Biotech | TROP2 | Fully human IgG1 | KL610023 (topoisomerase I inhibitor) | Cleavable — CL2A | 7.4 | Breast cancer; non-small cell lung cancer | NMPA, November 2024 |
| Datopotamab deruxtecan (Datroway) | Daiichi Sankyo / AstraZeneca | TROP2 | Humanized IgG1 | Dxd (topoisomerase I inhibitor) | Cleavable — GGFG peptide linker | 4 | HR-positive/HER2-negative breast cancer; EGFR-mutant non-small cell lung cancer | FDA, January 2025 |
| Telisotuzumab vedotin (Emrelis) | AbbVie | c-Met | Humanized IgG1 | MMAE (tubulin inhibitor) | Cleavable — Val-Cit (MC-VC-PABC) | 3.1 | Previously treated, locally advanced or metastatic non-squamous NSCLC | FDA, May 2025 |
| Trastuzumab rezetecan (Aiweida (艾维达)) | Hengrui Pharmaceuticals | HER2 | Humanized IgG1 | SHR9265 (topoisomerase I inhibitor) | Cleavable — GGFG peptide linker | 5.7 | Non-small cell lung cancer | NMPA, May 2025 |
| Trastuzumab botidotin (Shutailai (舒泰莱)) | Sichuan Kelun-Biotech | HER2 | Humanized IgG1 | Duostatin-5 (tubulin inhibitor) | Cleavable — Val-Cit | 2 | Breast cancer | NMPA, October 17, 2025 |
| Becotatug vedotin (Meiyouheng (美佑恒)) | Lepu Biopharma | EGFR | Humanized IgG1 | MMAE (tubulin inhibitor) | Cleavable — Val-Cit | 4 | Recurrent/metastatic nasopharyngeal carcinoma | NMPA, October 30, 2025 |
| Pivekimab sunirine (Decnupaz) | AbbVie | CD123 | Humanized IgG1 | DGN549 (IGN-class DNA alkylating agent) | Cleavable — Ala-Ala | 2 | Blastic plasmacytoid dendritic cell neoplasm (BPDCN) | FDA, May 27, 2026 |
| Izalontamab brengitecan (Yizekang (宜泽康)) | Sichuan Baili Pharmaceutical (SystImmune) / Bristol Myers Squibb | EGFR × HER3 (bispecific) | Humanized bispecific IgG1* | Ed-04 (topoisomerase I inhibitor) | Cleavable — tetrapeptide GGFG | 8 | Recurrent/metastatic nasopharyngeal carcinoma | NMPA, June 22, 2026 — world's first approved bispecific ADC |
*Global first bispecific ADC.
Four ADCs are currently under formal regulatory review with FDA or NMPA, targeting B7-H3, CLDN18.2 (two programs), and HER2 — three of which carry Priority Review or equivalent expedited designations.
| Generic Name | Company | Target | Payload | Linker | DAR | Indication | Regulatory Status / Filing Date |
|---|---|---|---|---|---|---|---|
| Ifinatamab deruxtecan (I-DXd) | Daiichi Sankyo / Merck (MSD) | B7-H3 | DXd (topoisomerase I inhibitor) | Cleavable — tetrapeptide GGFG | 4 | Extensive-stage small cell lung cancer (ES-SCLC) progressing after platinum-based chemotherapy | FDA BLA accepted April 13, 2026; PDUFA date October 10, 2026; Priority Review |
| Arcotatug tavatecan (IBI343 / TAK-921) | Innovent Biologics / Takeda | CLDN18.2 | Exatecan (topoisomerase I inhibitor) | Cleavable — Val-Ala-PABC | 3.6 | Locally advanced unresectable or metastatic CLDN18.2-positive gastric or gastroesophageal junction adenocarcinoma, ≥2 prior systemic therapies | NMPA accepted June 4, 2026; Priority Review |
| Trastuzumab pamirtecan (DB-1303 / BNT323) | DualityBio / BioNTech | HER2 | P1003 / Pamirtecan (topoisomerase I inhibitor) | Cleavable — GGFG peptide linker | 8 | Second-line treatment of HER2-positive unresectable or metastatic adult breast cancer | NMPA BLA accepted April 9, 2026 |
| Tecotabart vedotin (LM-302) | Sino Biopharmaceutical / LaNova Medicines | CLDN18.2 | MMAE (tubulin inhibitor) | Cleavable — Val-Cit (MC-VC-PABC) | 4 | CLDN18.2-positive locally advanced or metastatic gastric/ gastroesophageal junction adenocarcinoma |
NMPA accepted June 23, 2026; granted Priority Review |
Antibody-oligonucleotide conjugates (AOCs) pair an antibody-mediated delivery mechanism with an oligonucleotide payload — in these two programs, a phosphorodiamidate morpholino oligomer (PMO) that induces exon skipping. Both target Duchenne muscular dystrophy (DMD), marking the first time this conjugate class has reached BLA stage and signaling the expansion of "XDC" technology beyond oncology into rare genetic disease.
| Generic Name | Company | Target | Payload | Linker | DAR | Indication | Regulatory Status / Filing Date |
|---|---|---|---|---|---|---|---|
| Delpacibart zotadirsen (del-zota) | Novartis (formerly Avidity Biosciences) | TfR1-mediated delivery × PMO-induced exon skipping | Zotadirsen (PMO, phosphorodiamidate morpholino oligomer) | Non-cleavable — maleimide | 4 | Duchenne muscular dystrophy, exon 44-skip-amenable population (DMD44) | BLA submitted June 25, 2026; FDA filing review pending; accelerated approval pathway |
| Zelecinment rostudirsen (DYNE-251) | Dyne Therapeutics | TfR1-mediated delivery × PMO-induced exon skipping | Rostudirsen (PMO, phosphorodiamidate morpholino oligomer) | Cleavable — Val-Cit | 2 | Duchenne muscular dystrophy, exon 51-skip-amenable population (DMD51) | BLA submitted May 26, 2026; FDA filing review pending; accelerated approval pathway |
Hengrui, Kelun-Biotech, Lepu Biopharma, and Baili Pharmaceutical have each brought an approved product to market, with Baili/BMS's izalontamab brengitecan (Yizekang) standing out as the world's first approved EGFR×HER3 bispecific ADC — evidence that Chinese innovation has moved from "me-too" to "first-in-class" in at least some programs.
Meanwhile, Innovent's IBI343, DualityBio's DB-1303, and LaNova's LM-302 are progressing through NDA/BLA review, further strengthening China's position in the global ADC competitive landscape.
The field is moving outward from classic targets like HER2 and CD30 toward TROP2, c-Met, B7-H3, CLDN18.2, and bispecific combinations such as EGFR×HER3. Indications are expanding in parallel, from established tumor types such as breast cancer and lymphoma into nasopharyngeal carcinoma, small cell lung cancer, and BPDCN.
Most significantly, AOC drugs have reached BLA stage for the first time, extending conjugate technology from oncology into a hereditary rare disease — Duchenne muscular dystrophy — and opening a new chapter for XDC platforms broadly.
Bispecific ADCs, the broad adoption of topoisomerase I inhibitor payloads (the Dxd class), refined cleavable-linker chemistry, and low-DAR/high-potency payload design (such as a DAR of 2 in some newer programs) are among the innovations pushing the field from "third generation" toward what many now call "next generation" ADCs — with a continued focus on widening the therapeutic window and improving tolerability.
As more ADC and AOC candidates advance through review and into commercialization, competitive advantage in the sector will increasingly hinge on three capabilities: building durable technology differentiation, securing a resilient and scalable supply chain, and compressing the timeline from clinical development to commercial-scale manufacturing.
ChemExpress has built dedicated ADC/XDC CRO-CDMO capabilities spanning payload and linker synthesis, bioconjugation process development, and scale-up manufacturing, and continues to track the global conjugate-drug pipeline closely.
This article is intended as a timely, accurately sourced reference for industry peers — corrections, additional data points, and differing interpretations are welcome.
As of June 30, 2026, 23 antibody-drug conjugates (ADCs) have received regulatory approval globally (including products that were later withdrawn from the market), across targets such as HER2, TROP2, CD30, CD33, BCMA, EGFR, FRα, Nectin-4, c-Met, and CD123.
An ADC (antibody-drug conjugate) pairs a monoclonal antibody with a small-molecule cytotoxic payload — typically a tubulin inhibitor or topoisomerase I inhibitor — to kill tumor cells. An AOC (antibody-oligonucleotide conjugate) instead links the antibody to an oligonucleotide payload, such as a phosphorodiamidate morpholino oligomer (PMO), and is used to modulate gene expression rather than directly kill cells — for example, inducing exon skipping in Duchenne muscular dystrophy.
Sichuan Baili Pharmaceutical (in collaboration with SystImmune and Bristol Myers Squibb) received NMPA approval for izalontamab brengitecan (Yizekang) on June 22, 2026, for recurrent/metastatic nasopharyngeal carcinoma — the world's first approved bispecific ADC, targeting both EGFR and HER3.
As of mid-2026, five China-originated ADCs have reached approval: RemeGen's disitamab vedotin (Aidixi, 2021), Kelun-Biotech's sacituzumab tirumotecan (Jiatailai, 2024) and trastuzumab botidotin (Shutailai, 2025), Hengrui's trastuzumab rezetecan (Aiweida, 2025), Lepu Biopharma's becotatug vedotin (Meiyouheng, 2025), and Baili Pharmaceutical/BMS's izalontamab brengitecan (Yizekang, 2026).
Three trends stand out in H1 2026: the accelerating international emergence of China-originated ADCs; continued expansion of target and indication coverage (including the first AOC programs to reach BLA stage); and technology iteration — bispecific ADCs, topoisomerase I inhibitor payloads, refined cleavable linkers, and low-DAR high-potency payload designs — aimed at widening the therapeutic window.
AOCs use an antibody to deliver an oligonucleotide payload to a specific tissue or cell type — commonly muscle tissue via the transferrin receptor 1 (TfR1) — enabling therapies such as exon-skipping treatments for Duchenne muscular dystrophy that would otherwise be difficult to deliver systemically at an effective dose.
Whether you are evaluating an ADC candidate, planning an IND-enabling program, selecting a payload-linker platform, or preparing for commercial manufacturing, ChemExpress provides integrated CRO and CDMO solutions spanning discovery, process development, analytical support, CMC, scale-up, and GMP manufacturing.
Our multidisciplinary teams support antibody-drug conjugates (ADCs), antibody-oligonucleotide conjugates (AOCs), peptides, oligonucleotides, small molecules, and other emerging therapeutic modalities with flexible development and manufacturing services tailored to each project stage.