Derleme
BibTex RIS Kaynak Göster
Yıl 2019, Cilt: 3 Sayı: 1, 54 - 69, 31.01.2019

Öz

Kaynakça

  • Referans 1 Kumar, Abbas, Aster (Çeviri: S. Tuzlalı, M. Güllüoğlu, U. Çevikbaş) Neoplazi In: Robbins Temel Patoloji. 2014, 161-215
  • Referans 2 Kathawala R.J, Gupta P, Ashby Jr C.R, Chen Z.S, In:The modulation of ABC transporter-mediated multidrug resistance in cancer: A review of the past decade, Drug Resistance Updates2015, 18: 1-17
  • Referans 3 Chen Z, Shi T, Zhang L, Zhu P, Deng M, Huang C, Hu T, Jiang L, Li J, In: Mammalian drug efflux transporters of the ATP-binding cassette (ABC) family in multidrug resistance: A review op the past decade, Cancer Letters 2016, 370 :153-164
  • Referans 4 Housman C, Byler S, Heerboth S, Lapinska K, Longacre M, Snyder N, Sarkar S, In: Drug resistance in cancer: An overview, Cancer 2014, 6, 1769 1792; doi:10.3390/cancers6031769
  • Referans 5 Löscher W, Potschka H, In: Blood-brain barrier active efflux transporters: ATP-binding cassette gene family. The American Society for Experimental NeuroTherapeutics 2005, Vol.2, 86-98
  • Referans 6. Chang G, In: Multidrug resistance ABC transportes, FEBS Letters 555, 2013, 102-105
  • Referans 7 Baker E, El-Osta A, In: MDR1, chemotherapy and chromotin remodeling, Cancer Biology & Therapy, 2004, 3:9, 819-824
  • Referans 8 Vasiliou V, Vasiliou K, Nebert D.W, Human ATP-cinding casette (ABC) transporter family. In: Henry Stewart Publications 1479-7364 Human Genomics April 2009 Vol. 3. No 3. 281-290
  • Referans 9 Hediger M, Romero M, Peng J, Rolfs A, Takanaga H, Bruford E, In: The ABC’s oh the solute carriers: physiological, pathological and therapeutic implications of human membrane transport proteins. Eur J Physiol 2004, 447: 465-468.
  • Referans 10 He L, Vasiliou K, Nebert D, In: Analysis and update of the human solute carrier (SLC) gene superfamily. Human Genomics 2009 Vol.3 No.2 195-206
  • Referans 11 Hediger M, Clemencon B, Burrier R, Bruford E, In: The ABC’s of membrane transporters in health and disease (SLC series) 2013: 34(2-3): 95-107
  • Referans 12 Piatkov İ, Caetano D, Assur Y, Lau S.L, Jones T, Boyages S. C, McLean M, In: ABCB1 and ABCC1 single-nucleotide polymorphisms in patients treated with clozapine. Pharmacogenomics and Personalized Medicine 2017: 10 235-242
  • Referans 13 Glavinas H, Krajcsi P, Cserepes J, Sarkadi B In: The role of ABC transporters in drug resistance, metabolism and toxicity. Current Drug Delivery, 2004. 1. 27-42
  • Referans 14 Rice A.J, Park A, Pinkett H.W, In: Diversity in ABC transporters: Type I, II and III importers. Crit. Rev. Biochem. Mol. Biol, 2014, 49(5):426-437
  • Referans 15 Dean M, Hamon Y, Chimini G, In: The human ATP-binding cassette (ABC) transporter superfamily. Journal of Lipid Research, 2001, Vol 42, 1007-1017
  • Referans 16 Ejendal K.F.K, Hrycyna C.A, In: Multidrug resistance and cancer: The role of the human ABC transporter ABCG2. Current Protein and Peptide Science, 2002, 3, 503-511
  • Referans 17 Durmus S, Hendrikx J.J, Schinkel A.H, In: Apical ABC transporters and cancer chemotherapeutic drug disposition. Advances in Cancer Research,2015 Vol 125
  • Referans 18 Fletcher J.I, Williams R.T, Henderson M.J, Moris M.D, Haber M, In: ABC transporters as mediators of drug resistance and contributors to cancer cell biology. Drug Resistance Updates,2016 ,26 1-9
  • Referans 19 Gottesman M.M, In: Mechanisms of cancer drug resistance. Annu. Rev. Med. 2002. 53;615-27
  • Referans 20 Abdallah H.M, Al-Abd A.M, El-Dine R.S, El-Halawani A.M, In: P-glycoprotein inhibitors of naturel origin as potential tumor chemo-sensitizers: A review. Journal of Advanced Research 2015, 6, 45-62
  • Referans 21 Nooter K, Herweijer H, In: Multidrug resistance (mdr) genes in human cancer, Br. J. Cancer (1991), 63, 663-669
  • Referans 22 Hodin S, Basset T, Jacqueroux E, Delezay O, Clotagatide A, Perek N, Mismetti P, Delavenne X, In: In-vitro comparison of the role of P-glycoprotein and breast cancer resistance protein on direct oral anticoagulants disposition.
  • Referans 23 Patel A, Wang D, Sim H, Ambudekar S.V, Chen Z, In: ABC transporter modulatory drugs from marine sources: A new approach to overcome drug resistance in cancer.
  • Referans 24 Schinkel A, Mayer U, Wagenaar E, Mol C, van Deemter L, Smit J, In: Normal viability and altered pharmacokinetics in mice lacking mdr1-type (drug-transporting) P-glycoproteins, Proc. Natl. Acad. Sci. 1997, Vol. 94: 4028-4033.
  • Referans 25 Harris A, Hochhauser D, In: Mechanisms of the multidrug resistance in cancer treatment, Acta Oncologica 1992, Vol.31, No.2: 205-213

DIŞA ATIM POMPA SİSTEMLERİ VE BU SİSTEMLERİN KANSER TEDAVİSİNDEKİ ETKİNLİKLERİ

Yıl 2019, Cilt: 3 Sayı: 1, 54 - 69, 31.01.2019

Öz

ÖZET

            Membranlar hücreleri çevresinde
ayıran, lipit, proteinler ve karbonhidratlardan oluşan çift tabakalı yapılardır.
Çeşitli moleküllerin hücre zarı boyunca taşınmasını sağlayan sistemler arasında
hücre zarına yerleşmiş taşıyıcı proteinler bulunmaktadır.

            Kanser, kontrolsüz hücre
çoğalmasıyla karakterize bir grup hastalığın genel adıdır. Ortalama ömrün
uzaması gibi çeşitli etkenler ile kanser görülme sıklığı artmaktadır. Kanserin
tedavisi önündeki en önemli engellerden bir tanesi, kanser hücrelerinin
kemoterapötiklere karşı geliştirdikleri çoklu ilaç direncidir. Bu dirence sebep
olan en önemli etkenlerden birisi ABC taşıyıcı proteinleridir. Günümüze kadar
keşfedilmiş 49 üyesi bulunan bu protein süper ailesinin, in vivo şartlarda
çoklu ilaç direnci ile ilişkili olduğu belirlenmiş 4 üyesi bulunmaktadır.
Bunlar P-glikoprotein (MDR1), çoklu ilaç direnci ilişkili protein (MRP1), göğüs
kanseri direnç proteini (BCRP) ve ABCC10’dur. Bu proteinler, kimyasal yapısı ve
etki mekanizmaları bakımından birbirinden çok farklı pek çok antikanser ilacını
hücre dışına atarak, kanser hücrelerinin kemoterapötiklere direnç
geliştirmesine neden olmaktadır.

            Kanser hücrelerinde oluşan çoklu
ilaç direncini atlatmak ve bu hücreleri antikanser ilaçlarına tekrar duyarlı
hale getirmek için denenen stratejilerden birisi, antikanser ilaçların p-gp
inhibitörleri ile birlikte verilmesidir. Bu amaçla 3 nesil p-gp inhibitörü
geliştirilmiştir. Henüz klinik çalışmalarda başarı gösteremeyen bu
inhibitörler, kanser tedavisi açısından üzerinde durulması gereken çok önemli
bir alanı oluşturmaktadır.









 

ABSTRACT

Membranes,
which separate the cells from their environment, are two-layered structures
composed of lipits, proteins and carbohydrates. One of the systems that allow
the transport of various molecules accros cell membranes are carrier proteins
that are located on the cell membrane.



Cancer
is the general name of a group of diseases characterized by uncontrolled cell
proliferation. The incidence of cancer is increasing with various factors such
as the average life span. One of the most important obstacles to cancer
treatment is multidrug resistance, which cancer cells develop against
chemotherapeutics. ABC carrier proteins are one of the most important factors
that cause this resistance. Until today 49 members of this protein superfamily
has been discovered, there are 4 members who are found to be associated with
multiple drug resistance in vivo conditions. These are P-glycoprotein (MDR1),
multidrug resistance-associated protein (MRP1), breast cancer resistance
protein (BCRP) and ABCC10. These proteins can efflux many different anticancer
drugs which are different from each other in terms of chemical structure and
mechanism of action and cause cancer cells to develop resistance to
chemotherapeutics.



One
strategy that has been tried to overcome the multiple drug resistance that
occurs in cancer cells and make these cells susceptible to anticancer drugs is
the co-administration of anticancer drugs with p-gp inhibitors. Three
generations of p-gp inhibitors have been developed for this purpose. These
inhibitors, which have not yet been successful in clinical trials, constitute a
very important area to be addressed in terms of cancer treatment.

Kaynakça

  • Referans 1 Kumar, Abbas, Aster (Çeviri: S. Tuzlalı, M. Güllüoğlu, U. Çevikbaş) Neoplazi In: Robbins Temel Patoloji. 2014, 161-215
  • Referans 2 Kathawala R.J, Gupta P, Ashby Jr C.R, Chen Z.S, In:The modulation of ABC transporter-mediated multidrug resistance in cancer: A review of the past decade, Drug Resistance Updates2015, 18: 1-17
  • Referans 3 Chen Z, Shi T, Zhang L, Zhu P, Deng M, Huang C, Hu T, Jiang L, Li J, In: Mammalian drug efflux transporters of the ATP-binding cassette (ABC) family in multidrug resistance: A review op the past decade, Cancer Letters 2016, 370 :153-164
  • Referans 4 Housman C, Byler S, Heerboth S, Lapinska K, Longacre M, Snyder N, Sarkar S, In: Drug resistance in cancer: An overview, Cancer 2014, 6, 1769 1792; doi:10.3390/cancers6031769
  • Referans 5 Löscher W, Potschka H, In: Blood-brain barrier active efflux transporters: ATP-binding cassette gene family. The American Society for Experimental NeuroTherapeutics 2005, Vol.2, 86-98
  • Referans 6. Chang G, In: Multidrug resistance ABC transportes, FEBS Letters 555, 2013, 102-105
  • Referans 7 Baker E, El-Osta A, In: MDR1, chemotherapy and chromotin remodeling, Cancer Biology & Therapy, 2004, 3:9, 819-824
  • Referans 8 Vasiliou V, Vasiliou K, Nebert D.W, Human ATP-cinding casette (ABC) transporter family. In: Henry Stewart Publications 1479-7364 Human Genomics April 2009 Vol. 3. No 3. 281-290
  • Referans 9 Hediger M, Romero M, Peng J, Rolfs A, Takanaga H, Bruford E, In: The ABC’s oh the solute carriers: physiological, pathological and therapeutic implications of human membrane transport proteins. Eur J Physiol 2004, 447: 465-468.
  • Referans 10 He L, Vasiliou K, Nebert D, In: Analysis and update of the human solute carrier (SLC) gene superfamily. Human Genomics 2009 Vol.3 No.2 195-206
  • Referans 11 Hediger M, Clemencon B, Burrier R, Bruford E, In: The ABC’s of membrane transporters in health and disease (SLC series) 2013: 34(2-3): 95-107
  • Referans 12 Piatkov İ, Caetano D, Assur Y, Lau S.L, Jones T, Boyages S. C, McLean M, In: ABCB1 and ABCC1 single-nucleotide polymorphisms in patients treated with clozapine. Pharmacogenomics and Personalized Medicine 2017: 10 235-242
  • Referans 13 Glavinas H, Krajcsi P, Cserepes J, Sarkadi B In: The role of ABC transporters in drug resistance, metabolism and toxicity. Current Drug Delivery, 2004. 1. 27-42
  • Referans 14 Rice A.J, Park A, Pinkett H.W, In: Diversity in ABC transporters: Type I, II and III importers. Crit. Rev. Biochem. Mol. Biol, 2014, 49(5):426-437
  • Referans 15 Dean M, Hamon Y, Chimini G, In: The human ATP-binding cassette (ABC) transporter superfamily. Journal of Lipid Research, 2001, Vol 42, 1007-1017
  • Referans 16 Ejendal K.F.K, Hrycyna C.A, In: Multidrug resistance and cancer: The role of the human ABC transporter ABCG2. Current Protein and Peptide Science, 2002, 3, 503-511
  • Referans 17 Durmus S, Hendrikx J.J, Schinkel A.H, In: Apical ABC transporters and cancer chemotherapeutic drug disposition. Advances in Cancer Research,2015 Vol 125
  • Referans 18 Fletcher J.I, Williams R.T, Henderson M.J, Moris M.D, Haber M, In: ABC transporters as mediators of drug resistance and contributors to cancer cell biology. Drug Resistance Updates,2016 ,26 1-9
  • Referans 19 Gottesman M.M, In: Mechanisms of cancer drug resistance. Annu. Rev. Med. 2002. 53;615-27
  • Referans 20 Abdallah H.M, Al-Abd A.M, El-Dine R.S, El-Halawani A.M, In: P-glycoprotein inhibitors of naturel origin as potential tumor chemo-sensitizers: A review. Journal of Advanced Research 2015, 6, 45-62
  • Referans 21 Nooter K, Herweijer H, In: Multidrug resistance (mdr) genes in human cancer, Br. J. Cancer (1991), 63, 663-669
  • Referans 22 Hodin S, Basset T, Jacqueroux E, Delezay O, Clotagatide A, Perek N, Mismetti P, Delavenne X, In: In-vitro comparison of the role of P-glycoprotein and breast cancer resistance protein on direct oral anticoagulants disposition.
  • Referans 23 Patel A, Wang D, Sim H, Ambudekar S.V, Chen Z, In: ABC transporter modulatory drugs from marine sources: A new approach to overcome drug resistance in cancer.
  • Referans 24 Schinkel A, Mayer U, Wagenaar E, Mol C, van Deemter L, Smit J, In: Normal viability and altered pharmacokinetics in mice lacking mdr1-type (drug-transporting) P-glycoproteins, Proc. Natl. Acad. Sci. 1997, Vol. 94: 4028-4033.
  • Referans 25 Harris A, Hochhauser D, In: Mechanisms of the multidrug resistance in cancer treatment, Acta Oncologica 1992, Vol.31, No.2: 205-213
Toplam 25 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Bölüm Makaleler
Yazarlar

Elvan Bakar

Dilek Özgen Gülyenli Bu kişi benim

Yayımlanma Tarihi 31 Ocak 2019
Yayımlandığı Sayı Yıl 2019 Cilt: 3 Sayı: 1

Kaynak Göster

APA Bakar, E., & Özgen Gülyenli, D. (2019). DIŞA ATIM POMPA SİSTEMLERİ VE BU SİSTEMLERİN KANSER TEDAVİSİNDEKİ ETKİNLİKLERİ. Adnan Menderes Üniversitesi Sağlık Bilimleri Fakültesi Dergisi, 3(1), 54-69.