Piet Borst

Piet Borst MD PhD (born 5 July 1934, Amsterdam) is emeritus professor of Clinical Biochemistry and Molecular Biology at the University of Amsterdam (UVA), and the former Director of Research and Chairman of the Board of Directors of the Netherlands Cancer Institute and the Antoni van Leeuwenhoekziekenhuis (NKI-AVL), where he still works as staff member.

Career

Piet Borst studied medicine in Amsterdam from 1952 to 1958 and completed his internships in 1961-1962. He received his PhD for an investigation of tumor mitochondria (Supervisor E.C. Slater).

He then moved to New York City where he worked with post-doc and friend Charles Weissmann on replication of bacteriophages in the lab of Nobel laureate Severo Ochoa. In 1965, he became professor of Biochemistry at the University of Amsterdam (UvA) and head of the section for Medical Enzymology of the Amsterdam Biochemistry Department. From 1966 Borst was also head of the Department of Medical Enzymology and Molecular Biology, a separate part of the large Department of Biochemistry, which was housed in the Wilhelmina Hospital grounds in the then Jan Swammerdam Institute, where he also was a time director. From 1972 to 1980 Borst was also part-time Director of the Institute of Animal Physiology of the University of Amsterdam where he set up the first Unit for Molecular Biology on the Biology Campus.

In 1983 Borst moved to the Netherlands Cancer Institute - Antoni van Leeuwenhoek Hospital (NKI-AVL) where he became director of research and in 1987 also chairman. He retained an honorary professorship at the University of Amsterdam. After his mandatory retirement in 1999, Borst became a staff member of the NKI-AVL and continued running his lab, studying mechanisms of chemotherapy resistance in cancer cells, the psysiological function of drug transporters and function of DNA Base J, a new base in DNA, discovered in trypanosomes in the Borst lab.

Discoveries of Piet Borst and collaborators

1. The malate-aspartate shuttle (“Borst cycle”), a new major route for the transport of reducing equivalents from cytosol to mitochondria (1).

2. Bacteriophage RNA replicase keeps the template and daughter strand separated during RNA synthesis; duplex RNA is not an intermediate in RNA synthesis, but an isolation artifact (2).

3. Mammalian mitochondrial DNA consists of small duplex circles (3) that are identical in sequence, as proven by quantitative DNA renaturation experiments (4). It follows that the bulk of mitochondrial proteins is not encoded in mitochondrial DNA, but must be imported.

4. Development of ethidium-agarose electrophoresis (5) (for the separation of DNA topoisomers); proof that linear DNA molecules move like snakes through the gel (5).

5. The glycosome, a new peroxisome-like organelle that contains the glycolytic enzyme system in trypanosomes and related uni-cellular parasites (6).

6. Mitochondrial genes of the yeast Saccharomyces may contain introns (7) (8).

7. A DNA transposition mechanism for antigenic variation in African trypanosomes (9) (10) (11) (12).

8. Transsplicing as an essential step in the synthesis of all trypanosome mRNAs (13) (14) (15) (16, 17).

9. Growth and contraction of chromosome ends, the telomeres (18); trypanosome telomeres end in repeats of (GGGTTA)n (19) later also found in human telomeres.

10. Introduction of PFG electrophoresis for the separation of chromosome-sized DNA molecules of several protozoa (20) (21).

11. The first prenatal test for the Zellweger syndrome, a deadly inborn error of peroxisome biosynthesis (22).

12. Protective physiological functions of drug-transporting P-glycoproteins (ABCB1), i.a. in the blood-brain barrier (23) and in the gut (oral availability of drugs) (24) (25).

13. Proof that the Mdr2/MDR3 (ABCB4) P-glycoprotein is a phosphatidylcholine translocator, essential for bile formation (26).

14. Identification of the first ABC-transporter in a protozoal parasite, Leishmania, the PGP-A gene (now LtpgpA). This transporter gene is associated with arsenite resistance and is surrounded by direct and inverted DNA repeats facilitating gene amplification (27) (28) (29). This was the first representative of the ABCC class of transporters. Later Ouellette showed in his own lab that LtpgpA is an arsenite-GSH transporter involved in antimony resistance in patients.

15. J, a new base in the DNA of trypanosomes and related parasites (30) (31).

16. Variation in the transferrin receptor allows African trypanosomes to efficiently take up transferrin in a range of mammals, notwithstanding the rapid evolution of mammalian transferrins (32) (33).

17. Biosynthesis of base J (34) and identification of J as an essential termination signal in RNA synthesis in Leishmania (35).

18. The MRP (ABCC) family of drug transporters has multiple members (36) (37) (38). Identification of new endogenous substrates for MRP3 (ABCC3) and BCRP (ABCG2): phyto-estrogen conjugates (39) (40); MRP4 (ABCC4): prostaglandins (41); and MRP5 (ABCC5): N-lactoyl-amino acids, a novel metabolites of mammals (42), and glutamate-conjugates (43).

19. The first mouse tumor model suitable for studying mechanisms of primary and acquired resistance against drugs used to treat cancer patients (44) (45) (46).

20. Identification of new factors inhibiting DNA end resection, REV7 (47) and HELB (48), contributing to drug resistance in a mouse mammary tumor model.

21. Identification of the Volume-Regulation Anion Channel , as a contributor to uptake of Pt-based anti-cancer drugs in cells (49).

22. Pseudoxanthoma elasticum, an inborn error of calcification due to absence of MRP6 (ABCC6) in the liver, is caused by low plasma pyrophosphate (PPi). MRP6 mediates ATP export from cells and this is rapidly converted into PPi (binding calcium) by ectonucleotidases (50, 51).


References

  1. Borst P. Hydrogen transport and transport metabolites. In: Karlsson P, editor. Springer Verlag. Funktionelle und morphologische Organisation der Zelle; 1963. Heidelberg1963. p. 137-62.
  2. Borst P, Weissmann C. Replication of viral RNA, 8. Studies on the enzymatic mechanism of replication of MS2 RNA. Proc Natl Acad Sci U S A. 1965;54:982-7.
  3. Van Bruggen EF, Borst P, Ruttenberg GJ, Gruber M, Kroon AM. Circular mitochondrial DNA. Biochim Biophys Acta. 1966;119:437-9.
  4. Borst P, Ruttenberg GJ. Renaturation of mitochondrial DNA. Biochim Biophys Acta. 1966;114:645-7.
  5. Aaij C, Borst P. The gel electrophoresis of DNA. Biochim Biophys Acta. 1972;269:192-200.
  6. Opperdoes FR, Borst P. Localization of nine glycolytic enzymes in a microbody-like organelle in Trypanosoma brucei: the glycosome. FEBS Lett. 1977;80:360-4.
  7. Heyting C, Meijlink FC, Verbeet MP, Sanders JP, Bos JL, Borst P. Fine structure of the 21S ribosomal RNA region on yeast mitochondria DNA. I. Construction of the physical map and localization of the cistron for the 21S mitochondrial ribosomal RNA. Molecular & General Genetics. 1979;168:231-46.
  8. Bos JL, Osinga KA, Van der Horst G, Hecht NB, Tabak HF, Van Ommen GJ, Borst P. Splice point sequence and transcripts of the intervening sequence in the mitochondrial 21S ribosomal RNA gene of yeast. Cell. 1980;20:207-14.
  9. Hoeijmakers JH, Frasch AC, Bernards A, Borst P, Cross GAM. Novel expression-linked copies of the genes for variant surface antigens in trypanosomes. Nature. 1980;284:78-80.
  10. Boothroyd JC, Cross GA, Hoeijmakers JH, Borst P. A variant surface glycoprotein of Trypanosoma brucei synthesized with a C-terminal hydrophobic 'tail' absent from purified glycoprotein. Nature. 1980;288:624-6.
  11. Bernards A, Van der Ploeg LH, Frasch AC, Borst P, Boothroyd JC, Coleman S, Cross GA. Activation of trypanosome surface glycoprotein genes involves a duplication-transposition leading to an altered 3' end. Cell. 1981;27:497-505.
  12. De Lange T, Borst P. Genomic environment of the expression-linked extra copies of genes for surface antigens of Trypanosoma brucei resembles the end of a chromosome. Nature. 1982;299:451-3.
  13. Van der Ploeg LH, Liu AY, Michels PA, De Lange TD, Borst P, Majumder HK, Weber H, Veeneman GH, Van Boom J. RNA splicing is required to make the messenger RNA for a variant surface antigen in trypanosomes. NAR. 1982;10:3591-604.
  14. Kooter JM, De Lange T, Borst P. Discontinuous synthesis of mRNA in trypanosomes. EMBO J. 1984;3:2387-92.
  15. De Lange T, Michels PA, Veerman HJ, Cornelissen AW, Borst P. Many trypanosome messenger RNAs share a common 5' terminal sequence. NAR. 1984;12:3777-90.
  16. Kooter JM, Borst P. Alpha-amanitin-insensitive transcription of variant surface glycoprotein genes provides further evidence for discontinuous transcription in trypanosomes. NuclAcids Res. 1984;12:9457-72.
  17. Laird PW, Kooter JM, Loosbroek N, Borst P. Mature mRNAs of Trypanosoma brucei possess a 5' cap acquired by discontinuous RNA synthesis. NAR. 1985;13:4253-66.
  18. Bernards A, Michels PA, Lincke CR, Borst P. Growth of chromosome ends in multiplying trypanosomes. Nature. 1983;303:592-7.
  19. Van der Ploeg LHT, Liu AYC, Borst P. Structure of the growing telomeres of Trypanosomes. Cell. 1984;36:459-68.
  20. Van der Ploeg LH, Cornelissen AW, Michels PA, Borst P. Chromosome rearrangements in Trypanosoma brucei. Cell. 1984;39:213-21.
  21. Van der Ploeg LH, Cornelissen AW, Barry JD, Borst P. Chromosomes of kinetoplastida. EMBO J. 1984;3:3109-15.
  22. Heymans HS, Schutgens RB, Tan R, van den Bosch H, Borst P. Severe plasmalogen deficiency in tissues of infants without peroxisomes (Zellweger syndrome). Nature. 1983;306:69-70.
  23. Schinkel AH, Smit JJM, Van Tellingen O, Beijnen JH, Wagenaar E, Van Deemter L, Mol CAAM, Van der Valk MA, Robanus-Maandag EC, Te Riele HPJ, Berns AJM, Borst P. Disruption of the mouse mdr1a P-glycoprotein gene leads to a deficiency in the blood-brain barrier and to increased sensitivity to drugs. Cell. 1994;77:491-502.
  24. Mayer U, Wagenaar E, Beijnen JH, Smit JW, Meijer DKF, Van Asperen J, Borst P, Schinkel AH. Substantial excretion of digoxin via the intestinal mucosa and prevention of long-term digoxin accumulation in the brain by the mdr1a P-glycoprotein. Br J Pharmacol. 1996;119:1038-44.
  25. Schinkel AH, Mayer U, Wagenaar E, Mol CAAM, Van Deemter L, Smit JJM, Van der Valk MA, Voordouw AC, Spits H, Van Tellingen O, Zijlmans JMJM, Fibbe WE, Borst P. Normal viability and altered pharmacokinetics in mice lacking mdr1-type (drug-transporting) P-glycoproteins. Proc Natl Acad Sci U S A. 1997;94:4028-33.
  26. Smit JJM, Schinkel AH, Oude Elferink RPJ, Groen AK, Wagenaar E, Van Deemter L, Mol CAAM, Ottenhof R, Van der Lugt NMT, Van Roon M, Van der Valk MA, Offerhaus GJA, Berns AJM, Borst P. Homozygous disruption of the murine mdr2 P-glycoprotein gene leads to a complete absence of phospholipid from bile and to liver disease. Cell. 1993;75:451-62.
  27. Crozatier M, Van der Ploeg LH, Johnson PJ, Gommers-Ampt J, Borst P. Structure of a telomeric expression site for variant specific surface antigens in Trypanosoma brucei. Molecular & Biochemical Parasitology. 1990;42:1-12.
  28. Ouellette M, Hettema E, Wust D, Fase-Fowler F, Borst P. Direct and inverted DNA repeats associated with P-glycoprotein gene amplification in drug resistant Leishmania. EMBO J. 1991;10:1009-16.
  29. Ouellette M, Borst P. Drug resistance and P-glycoprotein gene amplification in the protozoan parasite Leishmania. Res Microbiol. 1991;142:737-46.
  30. Gommers-Ampt JH, Van Leeuwen F, de Beer AL, Vliegenthart JF, Dizdaroglu M, Kowalak JA, Crain PF, Borst P. beta-D-glucosyl-hydroxymethyluracil: a novel modified base present in the DNA of the parasitic protozoan T. brucei. Cell. 1993;75:1129-36.
  31. Van Leeuwen F, Taylor MC, Mondragon A, Moreau H, Gibson W, Kieft R, Borst P. Beta-D-Glucosyl-hydroxymethyluracil is a conserved DNA modification in kinetoplastid protozoans and is abundant in their telomeres. Proc Natl Acad Sci U S A. 1998;95:2366-71.
  32. Bitter W, Gerrits H, Kieft R, Borst P. The role of transferrin-receptor variation in the host range of Trypanosoma brucei. Nature. 1998;391:499-502.
  33. Van Luenen HGAM, Kieft R, Mussmann R, Engstler M, ter Riet B, Borst P. Trypanosomes change their transferrin receptor expression to allow effective uptake of host transferrin. Mol Microbiol. 2005;58:151-65.
  34. Yu Z, Genest PA, ter Riet B, Sweeney K, DiPaolo C, Kieft R, Christodoulou E, Perrakis A, Simmons JM, Hausinger RP, Van Luenen HGAM, Rigden DJ, Sabatini R, Borst P. The protein that binds to DNA base J in trypanosomatids has features of a thymidine hydroxylase. Nucleic Acids Res. 2007;35:2107-15.
  35. van Luenen H, Farris C, Jan S, Genest P-A, Tripathi P, Velds A, Kerkhoven RM, Nieuwland M, Haydock A, Ramasamy G, Vainio S, Heidebrecht T, Perrakis A, Pagie L, van Steensel B, Myler P, Borst P. Glucosylated hydroxymethyluracil (DNA base J) prevents transcriptional read-through in Leishmania. Cell. 2012;150(5):909-21.
  36. Kool M, De Haas M, Scheffer GL, Scheper RJ, Van Eijk MJT, Juijn JA, Baas F, Borst P. Analysis of expression of cMOAT (MRP2), MRP3, MRP4, and MRP5, homologs of the multidrug resistance-associated protein gene (MRP1), in human cancer cell lines. Cancer Res. 1997;57:3537-47.
  37. Kool M, Van der Linden M, De Haas M, Scheffer GL, De Vree JML, Smith AJ, Jansen G, Peters GJ, Ponne N, Scheper RJ, Oude Elferink RPJ, Baas F, Borst P. MRP3, an organic anion transporter able to transport anti-cancer drugs. Proc Natl Acad Sci U S A. 1999;96:6914-9.
  38. Wijnholds J, Mol CAAM, Van Deemter L, De Haas M, Scheffer GL, Baas F, Beijnen JH, Scheper RJ, Hatse S, De Clercq E, Balzarini J, Borst P. Multidrug-resistance protein 5 is a multispecific organic anion transporter able to transport nucleoside analogs. Proc Natl Acad Sci U S A. 2000;97:7476-81.
  39. Van de Wetering K, Feddema W, Helms JB, Brouwers JF, Borst P. Targeted metabolomics identifies glucuronides of dietary phytoestrogens as a major class of MRP3 substrates in vivo. Gastroenterol. 2009;137:1725-35.
  40. Krumpochova P, Sapthu S, Brouwers JF, De Haas M, de Vos R, Borst P, Van de Wetering K. Transportomics: screening for substrates of ABC transporters in body fluids using vesicular transport assays. FASEB J. 2012;26(2):738-47.
  41. Reid G, Wielinga P, Zelcer N, Van der Heijden I, Kuil A, De Haas M, Wijnholds J, Borst P. The human multidrug resistance protein MRP4 functions as a prostaglandin efflux transporter and is inhibited by nonsteroidal antiinflammatory drugs. Proc Natl Acad Sci U S A. 2003;100(16):9244-9.
  42. Jansen R AR, Merkx R, Fish A, Mahakena S, Bleijerveld O, Altelaar M, IJlst L, Wanders R, Borst P and Van de Wetering JK. N-lactoyl-amino acids are ubiquitous metabolites that originate from CNDP2-mediated reverse proteolysis of lactate and amino acids. Proc Natl Acad Sci U S A. 2015;112(21):6601-6.
  43. Jansen RS, Mahakena S, de Haas M, Borst P, van de Wetering K. ATP-binding Cassette Subfamily C Member 5 (ABCC5) Functions as an Efflux Transporter of Glutamate Conjugates and Analogs. J Biol Chem. 2015;290(51):30429-40.
  44. Rottenberg S, Nygren AOH, Pajic M, Van Leeuwen FWB, Van der Heijden I, Van de Wetering K, Liu X, de Visser KE, Gilhuijs KG, Van Tellingen O, Schouten JP, Jonkers J, Borst P. Selective induction of chemotherapy resistance of mammary tumors in a conditional mouse model for hereditary breast cancer. Proc Natl Acad Sci U S A. 2007;104:12117-22.
  45. Rottenberg S, Jaspers J, Kersbergen A, Van der Burg E, Nygren AOH, Zander S, Derksen PW, de Bruin M, Zevenhoven J, Lau A, Boulter R, Cranston A, O'Connor MJ, Martin NMB, Borst P, Jonkers J. High sensitivity of BRCA1-deficient mammary tumors to the PARP inhibitor AZD2281 alone and in combination with platinum drugs. ProcNatl AcadSciUSA. 2008;105:17079-84.
  46. Rottenberg S, Vollebergh MA, de Hoon B, de Ronde J, Schouten PC, Kersbergen A, Zander SA, Pajic M, Jaspers JE, Jonkers M, Loden M, Sol W, van der Burg E, Wesseling J, Gillet JP, Gottesman MM, Gribnau J, Wessels L, Linn SC, Jonkers J, Borst P. Impact of intertumoral heterogeneity on predicting chemotherapy response of BRCA1-deficient mammary tumors. Cancer Res. 2012;72(9):2350-61.
  47. Xu G, Chapman JR, Brandsma I, Yuan J, Mistrik M, Bouwman P, Bartkova J, Gogola E, Warmerdam D, Barazas M, Jaspers JE, Watanabe K, Pieterse M, Kersbergen A, Sol W, Celie PH, Schouten PC, van den Broek B, Salman A, Nieuwland M, de Rink I, de Ronde J, Jalink K, Boulton SJ, Chen J, van Gent DC, Bartek J, Jonkers J, Borst P, Rottenberg S. REV7 counteracts DNA double-strand break resection and affects PARP inhibition. Nature. 2015;521(7553):541-4.
  48. Tkac J, Xu G, Adhikary H, Young JT, Gallo D, Escribano-Diaz C, Krietsch J, Orthwein A, Munro M, Sol W, Al-Hakim A, Lin ZY, Jonkers J, Borst P, Brown GW, Gingras AC, Rottenberg S, Masson JY, Durocher D. HELB Is a Feedback Inhibitor of DNA End Resection. Mol Cell. 2016.
  49. Planells-Cases R, Lutter D, Guyader C, Gerhards NM, Ullrich F, Elger DA, Kucukosmanoglu A, Xu G, Voss FK, Reincke SM, Stauber T, Blomen VA, Vis DJ, Wessels LF, Brummelkamp TR, Borst P, Rottenberg S, Jentsch TJ. Subunit composition of VRAC channels determines substrate specificity and cellular resistance to Pt-based anti-cancer drugs. EMBO J. 2015;34(24):2993-3008.
  50. Jansen RS, Kucukosmanoglu A, de Haas M, Sapthu S, Otero JA, Hegman IE, Bergen AA, Gorgels TG, Borst P, van de Wetering K. ABCC6 prevents ectopic mineralization seen in pseudoxanthoma elasticum by inducing cellular nucleotide release. Proc Natl Acad Sci U S A. 2013;110(50):20206-11.
  51. Jansen RS, Duijst S, Mahakena S, Sommer D, Szeri F, Varadi A, Plomp A, Bergen AA, Oude Elferink RP, Borst P, van de Wetering K. ABCC6-mediated ATP secretion by the liver is the main source of the mineralization inhibitor inorganic pyrophosphate in the systemic circulation-brief report. Arterioscler Thromb Vasc Biol. 2014;34(9):1985-9.

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