Siramesine hydrochloride

>98%

  • Product Code: 126986
  Alias:    1'-[4-[1-(4-fluorophenyl)-1H-indol-3-yl]butyl]-3H-spiro[isobenzofuran-1,4'-piperidine]hydrochloride
  CAS:    224177-60-0
Molecular Weight: 491.04 g./mol Molecular Formula: C₃₀H₃₁FN₂OHCl
EC Number: MDL Number:
Melting Point: 225 °C Boiling Point:
Density: Storage Condition: -20℃, dry, sealed
Product Description: Siramesine hydrochloride is primarily researched for its potential therapeutic applications in the field of neuroscience and oncology. In neuroscience, it has been studied as a sigma-2 receptor ligand, showing promise in addressing psychiatric disorders such as depression and anxiety due to its modulation of neurotransmitter systems. Its ability to influence cellular stress responses and apoptosis has also sparked interest in cancer research, where it is explored for its potential to induce cell death in tumor cells, particularly in breast cancer models. Additionally, its role in autophagy regulation offers further avenues for investigating its use in neurodegenerative diseases and other conditions involving abnormal cell survival mechanisms. Ongoing studies continue to explore its efficacy and safety in these areas.
Product Specification:
Test Specification
Appearance White To Slightly Pale Yellow Crystal Or Powder
Purity (%) 98-100
Melting Point (Degree Celsius) 223.0-227.0
Infrared Spectrum Conforms To Structure
Sizes / Availability / Pricing:
Size (g) Availability Price Quantity
0.005 10-20 days ฿8,950.00
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-
0.025 10-20 days ฿25,220.00
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-
Siramesine hydrochloride
Siramesine hydrochloride is primarily researched for its potential therapeutic applications in the field of neuroscience and oncology. In neuroscience, it has been studied as a sigma-2 receptor ligand, showing promise in addressing psychiatric disorders such as depression and anxiety due to its modulation of neurotransmitter systems. Its ability to influence cellular stress responses and apoptosis has also sparked interest in cancer research, where it is explored for its potential to induce cell death in tumor cells, particularly in breast cancer models. Additionally, its role in autophagy regulation offers further avenues for investigating its use in neurodegenerative diseases and other conditions involving abnormal cell survival mechanisms. Ongoing studies continue to explore its efficacy and safety in these areas.
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