Effects of bortezomib: A Synthesis of Findings from 11 Studies

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Original Abstract of the Article

Major Research Findings

Bortezomib is a proteasome inhibitor that is used to treat multiple myeloma. 2 shows that XRK3F2, a selective ligand for the ZZ domain of p62, enhances the anti-tumor and bone-anabolic effects of bortezomib. XRK3F2 enhances the killing of human MM cells by promoting both bortezomib-mediated apoptosis and necroptosis, a process regulated by p62. It also preserves bone mass by promoting osteoblast differentiation and inhibiting osteoclast-mediated bone destruction. 9 shows that berberine protects against bortezomib-induced sciatic nerve and spinal cord damage in rats. Berberine exerts neuroprotective effects by alleviating oxidative stress and suppressing neuroinflammation. 4 shows that CUDC-101, a dual-target inhibitor of EGFR and HDAC, enhances the anti-myeloma effects of bortezomib. CUDC-101 inhibits the EGFR/PI3K signaling pathway and HDAC, leading to cell cycle G2/M arrest. 6 shows that low concentrations of bortezomib have specific cellular effects on the peripheral nervous system. Bortezomib causes dedifferentiation of Schwann cells, increased GFAP levels in satellite glial cells, and decreased expression levels of sensor and transducer ion channels in DRG neurons. 8 shows that flavonoids and non-flavonoid polyphenols enhance the anti-myeloma effects of bortezomib. These polyphenols enhance the efficacy of bortezomib by regulating cell signaling pathways associated with proliferation, apoptosis, and drug resistance. 7 shows that targeting arginase-1 exhibits antitumor effects in multiple myeloma and mitigates bortezomib-induced cardiotoxicity. Arginase inhibition effectively inhibits tumor progression and prevents the development of bortezomib-induced cardiotoxicity in mice. 11 shows that PC1, an antagonist of the prokineticin system, counteracts bortezomib-induced side effects. PC1 alleviates neuroinflammation and mood alterations in BTZ-treated mice. 5 shows that bortezomib exerts antitumor effects against malignant mesothelioma. Bortezomib induces mild endoplasmic reticulum stress in vitro and activates T cell response in vivo. 3 shows that the combination treatment of pinostilbene and bortezomib has cytotoxic and apoptotic effects on human multiple myeloma cells. Pinostilbene synergistically decreases MM cell viability and induces apoptosis when combined with bortezomib. 10 shows that the immunomodulatory effects of bortezomib are dose-dependent. Low-dose bortezomib ameliorates experimental autoimmune neuritis symptoms and improves nerve conduction. However, higher concentrations of bortezomib induce sensory neuropathy. 1 shows that bortezomib is not effective as a single agent in treating solid tumors. While bortezomib may be effective in combination with other agents, its effect is not always superior to the other agents alone.

Benefits and Risks

Benefit Summary

Bortezomib is an effective treatment for multiple myeloma. It can also be effective in combination therapy with other drugs. Additionally, bortezomib may offer neuroprotective and bone-preserving benefits. 9 , 2

Risk Summary

Bortezomib can cause neurotoxicity. It can also cause cardiotoxicity. , 10 These risks should be considered when using bortezomib.

Comparison Across Studies

Commonalities Across Studies

These studies show that bortezomib has antitumor effects. They also explore ways to mitigate the side effects of bortezomib.

Differences Across Studies

These studies explore different drugs and treatments to enhance the efficacy of bortezomib. They also show that the side effects of bortezomib can vary.

Consistency and Inconsistencies

While these studies show that bortezomib has antitumor effects, the effects are not always consistent. The side effects of bortezomib also vary across studies. Further research is needed to better understand the effects and side effects of bortezomib.

Implications for Real-World Application

Bortezomib is an effective treatment for multiple myeloma, but its side effects should be considered. It's crucial to consult a physician and choose the appropriate treatment option when using bortezomib.

Limitations of Current Research

These studies provide valuable information on the effects and side effects of bortezomib, but there is still much we don't know. More research is needed.

Future Research Directions

Research is needed to enhance the efficacy of bortezomib and mitigate its side effects. We need to study how bortezomib interacts with other drugs in combination therapy.

Conclusion

Bortezomib is an effective drug for treating multiple myeloma. However, its side effects should be considered. It's essential to consult a physician and choose the appropriate treatment option when using bortezomib. Further research is needed to better understand the effects and side effects of bortezomib.

Literature analysis of 11 papers
Positive Content
10
Neutral Content
1
Negative Content
0
Article Type
0
1
1
2
10
1.

Efficacy of therapy with bortezomib in solid tumors: a review based on 32 clinical trials.

Author: HuangZebo, WuYinxia, ZhouXin, XuJun, ZhuWei, ShuYongqian, LiuPing

Cancer treatment

Bortezomib, a proteasome inhibitor, is a front-line treatment for multiple myeloma. This review of 32 clinical trials found that bortezomib as a single agent did not show therapeutic benefit for solid tumors. High-quality studies are needed to understand its clinical effects and develop new proteasome inhibitors.

Journal ArticleAn article published in an academic or professional journal that reports original research or scholarly analysis.
Meta-AnalysisA statistical technique that integrates the results of multiple studies to draw more general conclusions about a particular issue.
ReviewAn article that critically examines existing research on a particular topic and summarizes the current state of knowledge in the field.

Language : English

2.

Pharmacologic targeting of the p62 ZZ domain enhances both anti-tumor and bone-anabolic effects of bortezomib in multiple myeloma.

Author: MarinoSilvia, PetruscaDaniela N, BishopRyan T, AndersonJudith L, SabolHayley M, AshbyCody, LayerJustin H, CesaranoAnnamaria, DavéUtpal P, PernaFabiana, Delgado-CalleJesus, ChirgwinJohn M, RoodmanG David

Bone mass preservation
Improved bone health
Increased MM cell killing

The study demonstrated that XRK3F2, a selective ligand for the ZZ-domain of p62/sequestosome-1, significantly enhanced the anti-multiple myeloma (MM) efficacy of the proteasome inhibitor bortezomib by stimulating apoptosis, necroptosis, and osteoblast differentiation.

Journal ArticleAn article published in an academic or professional journal that reports original research or scholarly analysis.

Language : English

5.

Antitumoral effects of Bortezomib in malignant mesothelioma: evidence of mild endoplasmic reticulum stress in vitro and activation of T cell response in vivo.

Author: BenvenutoMonica, AngioliniValentina, FocaccettiChiara, NardoziDaniela, PalumboCamilla, CarranoRaffaele, RufiniAlessandra, BeiRiccardo, MieleMartino Tony, ManciniPatrizia, BarillariGiovanni

MM treatment

This study explores the potential of intracavitary delivery of bortezomib, a proteasome inhibitor, for treating malignant mesothelioma.

Language : English

7.

Targeting arginase-1 exerts antitumor effects in multiple myeloma and mitigates bortezomib-induced cardiotoxicity.

Author: RamjiKavita, GrzywaTomasz M, SosnowskaAnna, PaterekAleksandra, OkninskaMarta, PilchZofia, BarankiewiczJoanna, GarbiczFilip, BorgKatarzyna, Bany-LaszewiczUrszula, ZerrouqiAbdesamad, PyrzynskaBeata, Rodziewicz-LurzynskaAnna, PapiernikDiana, SklepkiewiczPiotr, KedzierskaHanna, StaruchAdam, SadowskiRadoslaw, CiepielaOlga, Lech-MarandaEwa, JuszczynskiPrzemyslaw, MackiewiczUrszula, MaczewskiMichal, NowisDominika, GolabJakub

Cardiotoxicity prevention
MM treatment

This study investigated the role of arginase 1 (ARG1) in multiple myeloma (MM) in mice. ARG1 expression in myeloid cells was associated with tumor progression and suppression of T-cell immune responses. Arginase inhibition significantly delayed tumor growth and prevented bortezomib-induced cardiotoxicity, highlighting its potential as a complementary strategy in MM treatment.

Journal ArticleAn article published in an academic or professional journal that reports original research or scholarly analysis.
Research Support, Non-U.S. Gov'tResearch funding provided by government agencies outside the United States.

Language : English

8.

Synergistically Anti-Multiple Myeloma Effects: Flavonoid, Non-Flavonoid Polyphenols, and Bortezomib.

Author: DingKaixi, JiangWei, JiaHuanan, LeiMing

MM treatment

This systematic review examined the synergistic effects of flavonoids and non-flavonoid polyphenols on the anti-MM impacts of bortezomib (BTZ) in 19 preclinical studies. Eight flavonoids, one plant extract rich in flavonoids, and four non-flavonoid polyphenols synergistically enhanced the anti-MM effect of BTZ. These synergistic effects are mediated through the regulation of cellular signaling pathways associated with proliferation, apoptosis, and drug resistance.

Systematic ReviewA review that systematically collects, evaluates, and integrates relevant research to answer a specific research question.
Journal ArticleAn article published in an academic or professional journal that reports original research or scholarly analysis.
ReviewAn article that critically examines existing research on a particular topic and summarizes the current state of knowledge in the field.

Language : English

10.

Dose-dependent immunomodulatory effects of bortezomib in experimental autoimmune neuritis.

Author: KlimasRafael, SgodzaiMelissa, MotteJeremias, MohamadNuwin, RenkPia, BluschAlina, GrüterThomas, PedreiturriaXiomara, GobrechtPhilipp, FischerDietmar, Schneider-GoldChristiane, Reinacher-SchickAnke, TannapfelAndrea, YoonMin-Suk, GoldRalf, PitarokoiliKalliopi

EAN treatment
Neuropathy risk

Bortezomib, a proteasome inhibitor, has a dual effect on experimental autoimmune neuritis. Low doses (0.05 mg/kg) exhibit an immunomodulatory effect by reducing inflammation and improving nerve conduction, while higher doses (0.2 mg/kg) induce sensory neuropathy but preserve axonal regeneration.

Journal ArticleAn article published in an academic or professional journal that reports original research or scholarly analysis.

Language : English

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