NCT01778088
- Objective
- Not yet disclosed
- Design
- Not yet disclosed
- Participants
- Not yet disclosed
- Primary endpoint
- Not yet disclosed
- Results
- Results not yet reported
pharma · Waldenstrom Macroglobulinemia · Non Small Cell Lung Cancer · CLRB
Cellectar Biosciences is a pharma organization headquartered in Florham Park, USA. It trades on NYSE under ticker CLRB. Primary therapeutic focus areas include Waldenstrom Macroglobulinemia, Non Small Cell Lung Cancer, B
Phase 2 · small molecule · Glioma
I-131-CLR1404 Injection is a small-molecule radiopharmaceutical developed by Cellectar Biosciences for the treatment of glioma. The program, internally designated DCL-13-001, reached Phase 2 clinical development but was terminated as of February 2014. The drug is an iodine-131-based injection formulation, representing
Internal code DCL-13-001
I-131-CLR1404 Injection is a small-molecule radiopharmaceutical developed by Cellectar Biosciences for the treatment of glioma. The program, internally designated DCL-13-001, reached Phase 2 clinical development but was terminated as of February 2014. The drug is an iodine-131-based injection formulation, representing a radionuclide therapeutic approach to central nervous system malignancy. Cellectar's strategy centered on evaluating the agent in glioma patients through controlled clinical trials. The most recent disclosed milestone occurred on 25 February 2014, marking the end of active development for this indication. The program's termination reflects either strategic reprioritization, clinical or commercial challenges, or resource allocation decisions by the sponsor. No mechanism of action, specific molecular target, or detailed efficacy/safety data have been disclosed in available records. The competitive landscape for glioma includes multiple Phase 2 and Phase 3 agents targeting various pathways, including kinase inhibitors, radionuclide therapies, and chemotherapy combinations.
Glioma represents a significant unmet medical need, particularly high-grade glioblastoma, which carries poor prognosis despite standard-of-care temozolomide and radiation therapy. Novel therapeutic approaches, including targeted small molecules and radionuclide-based therapies, are actively pursued to improve survival and quality of life. Radiopharmaceutical approaches offer potential advantages through targeted delivery and localized cytotoxicity, particularly relevant for CNS tumors where blood-brain barrier penetration is a critical challenge. The termination of I-131-CLR1404 suggests that despite theoretical promise, the program did not advance to later-stage development, indicating either insufficient efficacy signals, safety concerns, or competitive disadvantage relative to emerging alternatives. The glioma market remains highly competitive, with multiple Phase 2 and Phase 3 programs evaluating kinase inhibitors (paxalisib, BGJ398), radionuclide therapies (177Lu-DOTATOC), and combination chemotherapy regimens. Understanding why this program was discontinued provides insight into clinical development challenges in CNS oncology and the high bar for advancement in this indication. The patient population affected by glioma is substantial but represents a specialized market segment requiring differentiated efficacy and safety profiles to justify development investment.
Drug Class: Radiopharmaceutical (radionuclide therapeutic)
Modality: Small molecule
Active Component: Iodine-131 (I-131)
Route of Administration: Injection (intravenous presumed, not explicitly stated)
Mechanism of Action: Not disclosed
Molecular Target: Not disclosed
Related Therapies: Other radionuclide-based approaches include 177Lu-DOTATOC (somatostatin receptor-targeted radionuclide therapy). Competitive small-molecule kinase inhibitors in glioma development include paxalisib (PI3K inhibitor), BGJ398 (FGFR inhibitor), and tovorafenib (BRAF inhibitor). Standard-of-care chemotherapy includes temozolomide and carboplatin-based combinations.
Patent Status: Not disclosed
First Approval: Not applicable; program terminated in Phase 2
Also known as: glial neoplasm, glial tumor, glial tumour, neoplasm of neuroglia, neoplasm of the neuroglia, neuroglial neoplasm
Prevalence: Point prevalence: 1-5 / 10 000 (Europe) — source: Orphanet, validated.
A benign or malignant brain and spinal cord tumor that arises from glial cells (astrocytes, oligodendrocytes, ependymal cells). Tumors that arise from astrocytes are called astrocytic tumors or astrocytomas. Tumors that arise from oligodendrocytes are called oligodendroglial tumors. Tumors that arise from ependymal cells are called ependymomas.
ClinicalTrials.gov lists 517 registered studies for Glioma (AACT aggregate).
Phase breakdown: NA (265), PHASE1 (85), PHASE2 (82), PHASE1/PHASE2 (33), EARLY_PHASE1 (29), PHASE3 (13), PHASE2/PHASE3 (7), PHASE4 (3)
Common investigational therapies:
Disease data sourced from MONDO Disease Ontology (MONDO:0021042), Orphanet — glioma, NCT00001150, NCT00001336, NCT00001341, NCT00001444, NCT00001500, AACT (ClinicalTrials.gov aggregate), ClinicalTrials.gov, NCT00001148, NCT00001171, NCT00001502, NCT00001573, NCT00009035, Open Targets Platform (CC BY 4.0).
Program Terminated
I-131-CLR1404 Injection development for glioma discontinued; latest disclosed milestone.
The glioma therapeutic landscape includes multiple competing approaches across Phase 2 and Phase 3 development. Phase 3 programs include everolimus (mTOR inhibitor, Jazz Pharmaceuticals), lenvatinib and belzutifan (kinase inhibitors, Merck Sharp and Dohme), and combination regimens incorporating tovorafenib, vincristine, and carboplatin (Lacuna Pharma). Phase 2 competitors include paxalisib (PI3K inhibitor, KAZIA Therapeutics and AXIM Biotechnologies), BGJ398 (FGFR inhibitor, Novartis), temozolomide-based combinations (Novartis, AstraZeneca), and 177Lu-DOTATOC radionuclide therapy (Istituto Gentili). The termination of I-131-CLR1404 occurred in a competitive environment where multiple kinase-targeted and combination chemotherapy approaches were advancing. Unlike receptor-targeted radionuclide therapies (e.g., 177Lu-DOTATOC targeting somatostatin receptors), the specific targeting mechanism of I-131-CLR1404 was not disclosed, potentially limiting competitive differentiation. The Phase 3 advancement of multiple competitors and the Phase 2 progression of diverse mechanisms suggest that I-131-CLR1404 may not have demonstrated sufficient clinical advantage or may have encountered safety or manufacturing challenges relative to alternatives.
| Therapy | Company | Mechanism | Status |
|---|---|---|---|
| Afinitor 2.5 mg tablets, Afinitor 10 mg tablets | The George Institute | small_molecule | phase_3 |
| Lenvatinib, Belzutifan, Lenvatinib | Merck Sharp and Dohme | small_molecule | phase_3 |
| Placebo tablets to match S95032 drug product are supplied as white to off-white, round (10 mg) and white to off-white oblong (40 mg) film-coated tablets for oral administration., S95032/AG-881, S95032/AG-881 | The George Institute | small_molecule | phase_3 |
| Everolimus | Jazz Pharmaceuticals Ireland Limited | small_molecule | phase_3 |
| Tovorafenib, VINCRISIN 1 mg/ml solution injectable, 2 mg, Carboplatin Hikma 10 mg/ml Konzentrat zur Herstellung einer Infusionslösung, Tovorafenib, VELBE 10 mg Trockensubstanz zur Injektionsbereitung, Vinblastin STADA 10 mg Pulver zur Herstellung einer Injektionslösung, cellcristin® 1 mg/ml Injektionslösung Wirkstoff: Vincristinsulfat, Vincristinesulfaat Teva 1 mg/ml, oplossing voor injectie, Vinblastinesulfaat 1 mg/ml PCH, oplossing voor injectie | Lacuna Pharma Pty Ltd | small_molecule | phase_3 |
| TOPOTECAN HYDROCHLORIDE, TOPOTECAN HYDROCHLORIDE, TEMOZOLOMIDE, TEMOZOLOMIDE, TEMOZOLOMIDE, TEMOZOLOMIDE, LEE011, TEMOZOLOMIDE, TEMOZOLOMIDE | Novartis Pharmaceuticals | small_molecule | phase_2 |
| Receptor radionuclide therapy with 177Lu-DOTATOC (177Lu- edotreotide or 177Lu-octreotide) in SSTR positive patients: a multicenter, prospective, phase II trial | Istituto Gentili S.r.l. | other | phase_2 |
| Paxalisib | KAZIA THERAPEUTICS LTD | small_molecule | phase_2 |
| BGJ398 | Novartis Pharmaceuticals | small_molecule | phase_2 |
| EXENATIDE | Disc Medicine | small_molecule | phase_2 |
| ONC201, Paxalisib | AXIM BIOTECHNOLOGIES, INC. | small_molecule | phase_2 |
| AZD9574, DS-8201a, TEMOZO-cell ®250 mg Hartkapseln, AZD9574, TEMOZO-cell® 140 mg Hartkapseln, TEMOZO-cell® 100 mg Hartkapseln, TEMOZO-cell® 20 mg Hartkapseln, AZD9574, TEMOZO-cell® 180 mg Hartkapseln, TEMOZO-cell® 5 mg Hartkapseln, AZD9574, Datopotamab deruxtecan | AstraZeneca AB | small_molecule | phase_2 |
| CARMUSTINE | — | Glutathione reductase inhibitor | Approved |
| BEVACIZUMAB | — | Vascular endothelial growth factor A inhibitor | Approved |
| VINCRISTINE SULFATE | — | Tubulin inhibitor | Phase 3 |
| VINCRISTINE | — | Tubulin inhibitor | Phase 3 |
| TRANEXAMIC ACID | — | Plasminogen inhibitor | Phase 3 |
| TRABEDERSEN | — | Transforming growth factor beta-2 mRNA antisense inhibitor | Phase 3 |
| TOVORAFENIB | — | RAF serine/threonine protein kinase inhibitor | Phase 3 |
| TOFACITINIB | — | Janus Kinase (JAK) inhibitor | Phase 3 |
Additional associated therapies sourced from Open Targets Platform (CC0), linked to NovaPharmaNews drug profiles where matched.
FDA Status: Not yet disclosed. Program terminated in Phase 2; no IND status, clinical hold, or regulatory correspondence disclosed.
EMA Status: Not yet disclosed.
PMDA (Japan) Status: Not yet disclosed.
NMPA (China) Status: Clinical trials status indicated for the drug product across multiple NCT identifiers (NCT03062774, NCT04493840, NCT05154630, NCT05164458, NCT05171790, NCT05405621, NCT05489276, NCT05584800, NCT05619926, NCT05735496), though these may represent other Cellectar programs or unrelated trials. No approval history or regulatory milestones are disclosed for I-131-CLR1404 Injection specifically.
Regulatory Pathway: Not yet disclosed. Radionuclide therapeutics typically require specialized regulatory review including dosimetry, biodistribution, and radiation safety assessments.
I-131-CLR1404 Injection was being developed for the treatment of glioma, a type of brain tumor. The program was terminated in Phase 2 clinical development.
Cellectar Biosciences is the sponsor and developer of I-131-CLR1404 Injection. No manufacturing partner is disclosed.
No. The program was terminated during Phase 2 clinical development and did not advance to FDA approval.
The mechanism of action has not been disclosed in available records.
The specific molecular target is not disclosed.
The active ingredient is iodine-131 (I-131), a radioactive isotope used in radionuclide therapy.
I-131-CLR1404 Injection is administered by injection; the specific route (intravenous, intrathecal, etc.) is not explicitly disclosed.
NCT01778088 is the primary disclosed clinical trial for I-131-CLR1404 Injection in glioma. Detailed trial design and results are not yet reported.
The program was terminated as of 25 February 2014, according to the latest disclosed milestone.
The specific reasons for termination are not disclosed. Possible factors include insufficient efficacy, safety concerns, or competitive disadvantage relative to other glioma therapies.
The program is terminated. No further development or clinical trials are planned.
Competing approaches include Phase 3 programs (everolimus, lenvatinib, belzutifan, tovorafenib combinations) and Phase 2 programs (paxalisib, BGJ398, 177Lu-DOTATOC radionuclide therapy, and temozolomide combinations).
I-131-CLR1404 Injection is classified as a small-molecule radiopharmaceutical.
Other Cellectar programs are not disclosed in the available facts for I-131-CLR1404 Injection.
Glioma, particularly high-grade glioblastoma, has poor prognosis despite standard-of-care temozolomide and radiation therapy. Novel therapeutic approaches targeting specific molecular pathways or delivering localized cytotoxicity are needed to improve survival.
Published results are not disclosed in available records. Trial results for NCT01778088 have not yet been reported.
I-131-CLR1404 Injection → Drug → Target → Indication → Company → Trials → Competitors
Strategic Implications: The termination of I-131-CLR1404 in Phase 2 indicates that Cellectar Biosciences either encountered insufficient efficacy signals, unacceptable toxicity, or competitive disadvantage in glioma. The lack of disclosed mechanism of action and molecular target suggests the program may have lacked clear differentiation from existing therapies or emerging competitors. Cellectar's subsequent strategic focus (if any) on alternative indications or mechanisms is not disclosed.
Competitive Implications: The advancement of multiple Phase 3 kinase inhibitors and combination chemotherapy regimens in glioma suggests that targeted molecular approaches and optimized chemotherapy combinations may offer greater clinical benefit than the I-131-CLR1404 approach. The success of receptor-targeted radionuclide therapies (e.g., 177Lu-DOTATOC) in other indications did not translate to glioma advancement for this program, potentially reflecting inadequate target expression, blood-brain barrier penetration challenges, or insufficient therapeutic window.
Future Catalysts: No future milestones are expected for this terminated program. Publication of Phase 2 safety and efficacy data, if conducted, would provide insight into reasons for termination.
Expected Milestones: None; program is terminated.
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Intelligence compiled from public regulatory and clinical sources (FDA, EMA, ClinicalTrials.gov and company disclosures). Figures may be editorial or analyst estimates; verify against primary sources before relying on them.