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DRUG:

Raylumis (tanezumab)

i
Other names: PF-4383119, RN 624, RN-624, PF-04383119, RI 624
Associations
Trials
Company:
Eli Lilly, Pfizer
Drug class:
Nerve growth factor inhibitor
Related drugs:
Associations
Trials
9ms
Phase 2 Study of Tanezumab in Subjects With Moderate to Severe Pain Due to Schwannomatosis (clinicaltrials.gov)
P2, N=9, Active, not recruiting, Massachusetts General Hospital | Trial completion date: Mar 2024 --> Sep 2024
Trial completion date
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Raylumis (tanezumab)
over1year
A Randomized Placebo-Controlled Trial of the Anti-Nerve Growth Factor Antibody Tanezumab in Subjects With Cancer Pain Due to Bone Metastasis. (PubMed, Oncologist)
Tanezumab 20 mg met the primary efficacy endpoint at week 8. Conclusions on longer-term efficacy are limited since the study was not designed to evaluate the durability of the effect beyond 8 weeks. Safety findings were consistent with adverse events expected in subjects with cancer pain due to bone metastasis and the known safety profile of tanezumab. Clinicaltrials.gov identifier: NCT02609828.
Clinical • Journal
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Raylumis (tanezumab)
2years
Nerve Growth Factor (NGF) Encourages the Neuroinvasive Potential of Pancreatic Cancer Cells by Activating the Warburg Effect and Promoting Tumor Derived Exosomal miRNA-21 Expression. (PubMed, Oxid Med Cell Longev)
In vivo tumorigenesis experiments, Tanezumab markedly alleviated nerve invasion of PC cells as well as relieved nociceptive conduction in animal models. These findings displayed that NGF/TrkA encouraged the neuroinvasive potential of PC cells by activating the Warburg effect in DRG cells through upregulation of TDE-miR-21-5p expression.
Journal
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MIR21 (MicroRNA 21)
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miR-21 expression • NTRK expression
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Raylumis (tanezumab)
almost3years
Peripheral Voltage-Gated Cation Channels in Neuropathic Pain and Their Potential as Therapeutic Targets. (PubMed, Front Pain Res (Lausanne))
Despite this, peripheral voltage-gated cation channels retain their promise as therapeutic targets. The way forward may include (i) further structural refinement of K channel activators such as retigabine and ASP0819 to improve selectivity and limit toxicity; use or modification of Na channel blockers such as vixotrigine, PF-05089771, A803467, PF-01247324, VX-150 or arachnid toxins such as Tap1a; the use of Ca channel blockers such as TTA-P2, TTA-A2, Z 944, ACT709478, and CNCB-2; (ii) improving methods for assessing "pain" as opposed to nociception in rodent models; (iii) recognizing sex differences in pain etiology; (iv) tailoring of therapeutic approaches to meet the symptoms and etiology of pain in individual patients via quantitative sensory testing and other personalized medicine approaches; (v) targeting genetic and biochemical mechanisms controlling channel expression using anti-NGF antibodies such as tanezumab or re-purposed drugs such as vorinostat, a histone methyltransferase inhibitor used in the management of T-cell lymphoma, or cercosporamide a MNK 1/2 inhibitor used in treatment of rheumatoid arthritis; (vi) combination therapy using drugs that are selective for different channel types or regulatory processes; (vii) directing preclinical validation work toward the use of human or human-derived tissue samples; and (viii) application of molecular biological approaches such as clustered regularly interspaced short palindromic repeats (CRISPR) technology.
Review • Journal
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TAP1 (Transporter 1)
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Zolinza (vorinostat) • Raylumis (tanezumab)