Bortezomib

Bortezomib
Systematic (IUPAC) name
[(1R)-3-methyl-1-({(2S)-3-phenyl-2-[(pyrazin-2-ylcarbonyl)amino]propanoyl}amino)butyl]boronic acid
Clinical data
Trade names Velcade
AHFS/Drugs.com monograph
MedlinePlus a607007
Licence data EMA:Link, US FDA:link
Pregnancy
category
  • AU: C
  • US: D (Evidence of risk)
Legal status
  • (Prescription only)
Routes of
administration
Subcutaneous, IV
Pharmacokinetic data
Protein binding 83%
Metabolism Hepatic, CYP extensively involved
Biological half-life 9 to 15 hours
Identifiers
CAS Number 179324-69-7 YesY
ATC code L01XX32
PubChem CID 387447
IUPHAR/BPS 6391
DrugBank DB00188 YesY
ChemSpider 343402 YesY
UNII 69G8BD63PP YesY
ChEMBL CHEMBL325041 YesY
PDB ligand ID BO2 (PDBe, RCSB PDB)
Chemical data
Formula C19H25BN4O4
Molar mass 384.237 g/mol
  (verify)

Bortezomib (BAN, INN and USAN. Originally codenamed PS-341; marketed as Velcade by Millennium Pharmaceuticals; Neomib by SciGen Philippines and Bortecad by Cadila Healthcare) is the first therapeutic proteasome inhibitor to be tested in humans. It is approved in the U.S. for treating relapsed multiple myeloma and mantle cell lymphoma.[1][2] In multiple myeloma, complete clinical responses have been obtained in patients with otherwise refractory or rapidly advancing disease.

Origin and development

Bortezomib was originally synthesized in 1995 at Myogenics. The drug (PS-341) was tested in a small Phase I clinical trial on patients with multiple myeloma. It was brought to further clinical trials by Millennium Pharmaceuticals in October 1999.

In May 2003, seven years after the initial synthesis, bortezomib (marketed as Velcade by Millennium Pharmaceuticals Inc.) was approved in the United States by the Food and Drug Administration (FDA) for use in multiple myeloma, based on the results from the SUMMIT Phase II trial.[3] Bortezomib is approved for initial treatment of patients with multiple myeloma by the U.S. FDA in 2008.[4]

Later in August 2014, this Administration approved Velcade for the retreatment of adult patients with multiple myeloma[5] who had previously responded to Velcade therapy and relapsed at least six months following completion of prior treatment.

Pharmacology

Bortezomib bound to the core particle in a yeast proteasome. The bortezomib molecule is in the center colored by atom type (boron = pink, carbon = cyan, nitrogen = blue, oxygen = red), surrounded by the local protein surface. The blue patch is catalytic threonine residue whose activity is blocked by the presence of bortezomib.

Structure

The drug is an N-protected dipeptide and can be written as Pyz-Phe-boroLeu, which stands for pyrazinoic acid, phenylalanine and Leucine with a boronic acid instead of a carboxylic acid. Peptides are written N-terminus to C-terminus, and this convention is used here even though the "C-terminus" is a boronic acid instead of a carboxylic acid.

Mechanism

The boron atom in bortezomib binds the catalytic site of the 26S proteasome[6] with high affinity and specificity. In normal cells, the proteasome regulates protein expression and function by degradation of ubiquitylated proteins, and also cleanses the cell of abnormal or misfolded proteins. Clinical and preclinical data support a role in maintaining the immortal phenotype of myeloma cells, and cell-culture and xenograft data support a similar function in solid tumor cancers. While multiple mechanisms are likely to be involved, proteasome inhibition may prevent degradation of pro-apoptotic factors, permitting activation of programmed cell death in neoplastic cells dependent upon suppression of pro-apoptotic pathways. Recently, it was found that bortezomib caused a rapid and dramatic change in the levels of intracellular peptides that are produced by the proteasome.[7] Some intracellular peptides have been shown to be biologically active, and so the effect of bortezomib on the levels of intracellular peptides may contribute to the biological and/or side effects of the drug.

Pharmacokinetics and pharmacodynamics

After subcutaneous administration, peak plasma levels are ~25-50 nM and this peak is sustained for 1-2 hrs. After intravenous injection, peak plasma levels are ~500 nM but only for ~5 minutes, after which the levels rapidly drop as the drug distributes to tissues (volume of distribution is ~500 L).[8][9] Both routes provide equal drug exposures and generally comparable therapeutic efficacy. Elimination half life is 9–15 hours and the drug is primarily cleared by hepatic metabolism.[10]

Pharmacodynamics are measured by measuring proteasome inhibition in peripheral blood mononuclear cells. The much greater sensitivity of myeloma cell lines and mantle cell lines to proteasome inhibition compared with normal peripheral blood mononuclear cells and most other cancer cell lines is poorly understood.

Costs

UK

NICE recommended against Velcade in Oct 2006 due to its cost.[11]

The company proposed a cost reduction for multiple myeloma,[12] and this was taken up in the UK.[13]

Adverse effects

Bortezomib is associated with peripheral neuropathy in 30% of patients; occasionally, it can be painful. This can be worse in patients with pre-existing neuropathy. In addition, myelosuppression causing neutropenia and thrombocytopenia can also occur and be dose-limiting. However, these side effects are usually mild relative to bone marrow transplantation and other treatment options for patients with advanced disease. Bortezomib is associated with a high rate of shingles,[14] although prophylactic acyclovir can reduce the risk of this.[15] Acute interstitial nephritis has also been reported.[16]

Gastro-intestinal (GI) effects and asthenia are the most common adverse events.[17]

Drug interactions

Green tea extract epigallocatechin gallate (EGCG), which had been expected to have a synergistic effect, was found by Encouse B. Golden, et al. to reduce the effectiveness of bortezomib.[18]

Therapeutic efficacy

Two open-label, phase II trials (SUMMIT and CREST) established the efficacy of bortezomib 1.3 mg/m2 (with or without dexamethasone) administered by intravenous bolus on days 1,4,8, and 11 of a 21-day cycle for a maximum of eight cycles in heavily pretreated patients with relapsed/refractory multiple myeloma.[19] The phase III APEX trial demonstrated the superiority of bortezomib 1.3 mg/m2 over a high-dose dexamethasone regimen (e.g. median TTP 6.2 vs 3.5 months, and 1-year survival 80% vs 66%).[19]

References

  1. Takimoto CH, Calvo E. "Principles of Oncologic Pharmacotherapy" in Pazdur R, Wagman LD, Camphausen KA, Hoskins WJ (Eds) Cancer Management: A Multidisciplinary Approach. 11 ed. 2008.
  2. House, Douglas W. (2014-10-09). "FDA clears Velcade label expansion". Seeking Alpha.
  3. Adams J, Kauffman M (2004). "Development of the Proteasome Inhibitor Velcade (Bortezomib)". Cancer Invest 22 (2): 304–11. doi:10.1081/CNV-120030218. PMID 15199612.
  4. "U.S. Department of Health and Human Services". fda.gov. June 23, 2008.
  5. "Millenium: The Takeda Oncology Company". .millennium.com. 2014-08-08.
  6. Bonvini P, Zorzi E, Basso G, Rosolen A (2007). "Bortezomib-mediated 26S proteasome inhibition causes cell-cycle arrest and induces apoptosis in CD-30+ anaplastic large cell lymphoma". Leukemia 21 (4): 838–42. doi:10.1038/sj.leu.2404528. PMID 17268529.
  7. Gelman JS, Sironi J, Berezniuk I, Dasgupta S, Castro LM, Gozzo FC, Ferro ES, Fricker LD (2013). "Alterations of the intracellular peptidome in response to the proteasome inhibitor bortezomib". PLOS ONE 8 (1): e53263. doi:10.1371/journal.pone.0053263. PMC 3538785. PMID 23308178.
  8. Reece DE, Sullivan D, Lonial S, Mohrbacher AF, Chatta G, Shustik C, Burris H, 3rd, Venkatakrishnan K, Neuwirth R, Riordan WJ, Karol M, von Moltke LL, Acharya M, Zannikos P, Keith Stewart A. (2011). "Pharmacokinetic and pharmacodynamic study of two doses of bortezomib in patients with relapsed multiple myeloma.". Cancer Chemother Pharmacol. 67: 57–67. doi:10.1007/s00280-010-1283-3.
  9. Voorhees PM, Dees EC, O'Neil B, Orlowski RZ (2003). "The proteasome as a target for cancer therapy". Clin Cancer Res 9 (17): 6316–25. PMID 14695130.
  10. Moreau P, Pylypenko H, Grosicki S, Karamanesht I, Leleu X, Grishunina M, Rekhtman G, Masliak Z, Robak T, Shubina A, Arnulf B, Kropff M, Cavet J, Esseltine DL, Feng H, Girgis S, van de Velde H, Deraedt W, Harousseau JL (2011). "Subcutaneous versus intravenous administration of bortezomib in patients with relapsed multiple myeloma: a randomised, phase 3, non-inferiority study.". The Lancet. Oncology. 12: 431–40. doi:10.1016/s1470-2045(11)70081-x.
  11. "NHS watchdog rejects cancer drug". BBC News UK. 2006-10-20. Retrieved 2009-08-14.
  12. "Summary of VELCADE Response Scheme" (PDF). Retrieved 2009-08-14.
  13. "More Velcade-Style Risk-Sharing In The UK?". Euro Pharma Today. 2009-01-21. Retrieved 2009-08-14.
  14. Oakervee HE, Popat R, Curry N; et al. (2005). "PAD combination therapy (PS-341/bortezomib, doxorubicin and dexamethasone) for previously untreated patients with multiple myeloma". Br J Haematol 129 (6): 755–62. doi:10.1111/j.1365-2141.2005.05519.x. PMID 15953001.
  15. Pour L., Adam Z., Buresova L.; et al. (2009). "Varicella-zoster virus prophylaxis with low-dose acyclovir in patients with multiple myeloma treated with bortezomib". Clinical Lymphoma & Myeloma 9 (2): 151–3. doi:10.3816/CLM.2009.n.036. PMID 19406726.
  16. Nephrol. Dial. Transplant 30 (7): 1225–1229. 2015. doi:10.1093/ndt/gfv222. Missing or empty |title= (help)
  17. Highlights Of Prescribing Information
  18. Golden, EB; Lam, PY; Kardosh, A; Gaffney, KJ; Cadenas, E; Louie, SG; Petasis, NA; Chen, TC; Schönthal, AH (4 June 2009). "Green tea polyphenols block the anticancer effects of bortezomib and other boronic acid-based proteasome inhibitors.". Blood 113 (23): 5927–37. doi:10.1182/blood-2008-07-171389. PMID 19190249.
  19. 1 2 Curran M, McKeage K. (2009). "Bortezomib: A Review of its Use in Patients with Multiple Myeloma". Drugs 69 (7): 859–888. doi:10.2165/00003495-200969070-00006. PMID 19441872.

External links

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