Sadaf Davudian scite author profile

Anticancer drugs resistance is a complex process that arises from altering in the drug targets. Advances in the DNA microarray, proteomics technology and the development of targeted therapies provide the new strategies to overcome the drug resistance. Although a design of the new chemotherapy agents is growing quickly, effective chemotherapy agent has not been discovered against the advanced stage of cancer (such as invasion and metastasis). The cancer cell resistance against the anticancer agents can be due to many factors such as the individual’s genetic differences, especially in tumoral somatic cells. Also, the cancer drug resistance is acquired, the drug resistance can be occurred by different mechanisms, including multi-drug resistance, cell death inhibiting (apoptosis suppression), altering in the drug metabolism, epigenetic and drug targets, enhancing DNA repair and gene amplification. In this review, we outlined the mechanisms of cancer drug resistance and in following, the treatment failures by common chemotherapy agents in the different type of cancers.

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BACH1, the master regulator gene: A novel candidate target for cancer therapy

Davudian

Mansoori

Shajari

et al. 2016

Gene

101

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Silencing of BACH1 inhibits invasion and migration of prostate cancer cells by altering metastasis-related gene expression

Shajari

Davudian

Kazemi

et al. 2017

Artificial Cells, Nanomedicine, and Biotechnology

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BACH1 silencing by siRNA inhibits migration of HT-29 colon cancer cells through reduction of metastasis-related genes

Davudian

Shajari

Kazemi

et al. 2016

Biomedicine & Pharmacotherapy

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Overcoming the Challenges of siRNA Delivery: Nanoparticle Strategies

Shajari¹,

Mansoori²,

Davudian³

et al. 2017

CDD

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Delivery of siRNA to the target site is the biggest challenge for its application in the clinic. The findings of this review confirmed by encapsulation siRNA in the nanoparticles can overcome these challenges. The rapid progress in nanotechnology has enabled the development of effective nanoparticles as the carrier for siRNA delivery. However, our data about siRNA-based therapeutics and also nanomedicine are still limited. More clinical data needs to be completely understood in the benefits and drawbacks of siRNA-based therapeutics. Prospective studies must pay attention to the in vivo safety profiles of the different delivery systems, including uninvited immune system stimulation and cytotoxicity. In essence, the development of nontoxic, biocompatible, and biodegradable delivery systems for medical application of RNAi-based therapeutics is needed.

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Sadaf Davudian

The Different Mechanisms of Cancer Drug Resistance: A Brief Review

BACH1, the master regulator gene: A novel candidate target for cancer therapy

Silencing of BACH1 inhibits invasion and migration of prostate cancer cells by altering metastasis-related gene expression

BACH1 silencing by siRNA inhibits migration of HT-29 colon cancer cells through reduction of metastasis-related genes

Overcoming the Challenges of siRNA Delivery: Nanoparticle Strategies

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