Nico Dantuma

Nico Dantuma

Professor
E-postadress: nico.dantuma@ki.se
Telefon: +46852487384
Besöksadress: Solnavägen 9, 17165 Stockholm
Postadress: C5 Cell- och molekylärbiologi, C5 CMB Dantuma, 171 77 Stockholm
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Om mig

  • Nico Dantuma är professor i molekylär cellbiologi sedan 2011. Hans forskning handlar om betydelsen av ubikvitin-proteasomsystemet vid utvecklingen av neurodegenerativa sjukdomar och cancer, liksom behandlingspotentialen vid modifiering av detta system.

Artiklar

Alla övriga publikationer

  • Preprint: BIORXIV. 2025
    Gierisch ME; Barchi E; Marogna M; Wallnöfer MH; Ankarcrona M; Naia L; Salomons FA; Dantuma NP
  • Preprint: BIORXIV. 2024
    Xu S; Gierisch M; Barchi E; Poser I; Alberti S; Salomons F; Dantuma N
  • Editorial comment: NEURAL REGENERATION RESEARCH. 2024;19(2):403-404
    Xu S; Dantuma NP
  • Editorial comment: COMMUNICATIONS BIOLOGY. 2021;4(1):919
    Garcia-Saura AG; Herzog LK; Dantuma NP; Schuler H
  • Review: AUTOPHAGY. 2021;17(1):1-382
    Klionsky DJ; Abdel-Aziz AK; Abdelfatah S; Abdellatif M; Abdoli A; Abel S; Abeliovich H; Abildgaard MH; Abudu YP; Acevedo-Arozena A; Adamopoulos IE; Adeli K; Adolph TE; Adornetto A; Aflaki E; Agam G; Agarwal A; Aggarwal BB; Agnello M; Agostinis P; Agrewala JN; Agrotis A; Aguilar PV; Ahmad ST; Ahmed ZM; Ahumada-Castro U; Aits S; Aizawa S; Akkoc Y; Akoumianaki T; Akpinar HA; Al-Abd AM; Al-Akra L; Al-Gharaibeh A; Alaoui-Jamali MA; Alberti S; Alcocer-Gomez E; Alessandri C; Ali M; Al-Bari MAA; Aliwaini S; Alizadeh J; Almacellas E; Almasan A; Alonso A; Alonso GD; Altan-Bonnet N; Altieri DC; Alves S; da Costa CA; Alzaharna MM; Amadio M; Amantini C; Amaral C; Ambrosio S; Amer AO; Ammanathan V; An Z; Andersen SU; Andrabi SA; Andrade-Silva M; Andres AM; Angelini S; Ann D; Anozie UC; Ansari MY; Antas P; Antebi A; Anton Z; Anwar T; Apetoh L; Apostolova N; Araki T; Araki Y; Arasaki K; Araujo WL; Araya J; Arden C; Arevalo M-A; Arguelles S; Arias E; Arikkath J; Arimoto H; Ariosa AR; Armstrong-James D; Arnaune-Pelloquin L; Aroca A; Arroyo DS; Arsov I; Artero R; Asaro DML; Aschner M; Ashrafizadeh M; Ashur-Fabian O; Atanasov AG; Au AK; Auberger P; Auner HW; Aurelian L; Autelli R; Avagliano L; Avalos Y; Aveic S; Aveleira CA; AvinWittenberg T; Aydin Y; Ayton S; Ayyadevara S; Azzopardi M; Baba M; Backer JM; Backues SK; Bae D-H; Bae O-N; Bae SH; Baehrecke EH; Baek A; Baek S-H; Baek SH; Bagetta G; Bagniewska-Zadworna A; Bai H; Bai J; Bai X; Bai Y; Bairagi N; Baksi S; Balbi T; Baldari CT; Balduini W; Ballabio A; Ballester M; Balazadeh S; Balzan R; Bandopadhyay R; Banerjee S; Banerjee S; Bao Y; Baptista MS; Baracca A; Barbati C; Bargiela A; Barila D; Barlow PG; Barmada SJ; Barreiro E; Barreto GE; Bartek J; Bartel B; Bartolome A; Barve GR; Basagoudanavar SH; Bassham DC; Bast RCJ; Basu A; Batoko H; Batten I; Baulieu EE; Baumgarner BL; Bayry J; Beale R; Beau I; Beaumatin F; Bechara LRG; Beck GRJ; Beers MF; Begun J; Behrends C; Behrens GMN; Bei R; Bejarano E; Bel S; Behl C; Belaid A; Belgareh-Touze N; 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Di Domenico F; Di Fazio P; Di Fonzo A; Di Guardo G; Di Guglielmo GM; Di Leo L; Di Malta C; Di Nardo A; Di Rienzo M; Di Sano F; Diallinas G; Diao J; Diaz-Araya G; Diaz-Laviada I; Dickinson JM; Diederich M; Dieude M; Dikic I; Ding S; Ding W-X; Dini L; Dinic J; Dinic M; Dinkova-Kostova AT; Dionne MS; Distler JHW; Diwan A; Dixon IMC; Djavaheri-Mergny M; Dobrinski I; Dobrovinskaya O; Dobrowolski R; Dobson RCJ; Emre SD; Donadelli M; Dong B; Dong X; Dong Z; Ii GWD; Dotsch V; Dou H; Dou J; Dowaidar M; Dridi S; Drucker L; Du A; Du C; Du G; Du H-N; Du L-L; du Toit A; Duan S-B; Duan X; Duarte SP; Dubrovska A; Dunlop EA; Dupont N; Duran RV; Dwarakanath BS; Dyshlovoy SA; Ebrahimi-Fakhari D; Eckhart L; Edelstein CL; Efferth T; Eftekharpour E; Eichinger L; Eid N; Eisenberg T; Eissa NT; Eissa S; Ejarque M; El Andaloussi A; El-Hage N; El-Naggar S; Eleuteri AM; El-Shafey ES; Elgendy M; Eliopoulos AG; Elizalde MM; Elks PM; Elsasser H-P; Elsherbiny ES; Emerling BM; Emre NCT; Eng CH; Engedal N; Engelbrecht A-M; 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Kovacs AL; Kovacs T; Koya D; Kozako T; Kraft C; Krainc D; Kramer H; Krasnodembskaya AD; Kretz-Remy C; Kroemer G; Ktistakis NT; Kuchitsu K; Kuenen S; Kuerschner L; Kukar T; Kumar A; Kumar A; Kumar D; Kumar D; Kumar S; Kume S; Kumsta C; Kundu CN; Kundu M; Kunnumakkara AB; Kurgan L; Kutateladze TG; Kutlu O; Kwak S; Kwon HJ; Kwon TK; Kwon YT; Kyrmizi I; La Spada A; Labonte P; Ladoire S; Laface I; Lafont F; Lagace DC; Lahiri V; Lai Z; Laird AS; Lakkaraju A; Lamark T; Lan S-H; Landajuela A; Lane DJR; Lane JD; Lang CH; Lange C; Langer R; Lapaquette P; Laporte J; LaRusso NF; Lastres-Becker I; Lau WCY; Laurie GW; Lavandero S; Law BYK; Law HK-W; Layfield R; Le W; Le Stunff H; Leary AY; Lebrun J-J; Leck LYW; Leduc-Gaudet J-P; Lee C; Lee C-P; Lee D-H; Lee EB; Lee EF; Lee GM; Lee H-J; Lee HK; Lee JM; Lee JS; Lee J-A; Lee J-Y; Lee JH; Lee M; Lee MG; Lee MJ; Lee M-S; Lee SY; Lee S-J; Lee SY; Lee SB; Lee WH; Lee Y-R; Lee Y-H; Lee Y; Lefebvre C; Legouis R; Lei YL; Lei Y; Leikin S; Leitinger G; Lemus L; Leng S; Lenoir O; Lenz G; Lenz HJ; Lenzi P; Leon Y; Leopoldino AM; Leschczyk C; Leskela S; Letellier E; Leung C-T; Leung PS; Leventhal JS; Levine B; Lewis PA; Ley K; Li B; Li D-Q; Li J; Li J; Li J; Li K; Li L; Li M; Li M; Li M; Li M; Li M; Li P-L; Li M; Li Q; Li S; Li T; Li W; Li W; Li X; Li Y-P; Li Y; Li Z; Li Z; Li Z; Lian J; Liang C; Liang Q; Liang W; Liang Y; Liang Y; Liao G; Liao L; Liao M; Liao Y-F; Librizzi M; Lie PPY; Lilly MA; Lim HJ; Lima TRR; Limana F; Lin C; Lin C-W; Lin D-S; Lin F-C; Lin JD; Lin KM; Lin K-H; Lin L-T; Lin P-H; Lin Q; Lin S; Lin S-J; Lin W; Lin X; Lin Y-X; Lin Y-S; Linden R; Lindner P; Ling S-C; Lingor P; Linnemann AK; Liou Y; Lipinski MM; Lipovsek S; Lira VA; Lisiak N; Liton PB; Liu C; Liu C-H; Liu C-F; Liu CH; Liu F; Liu H; Liu H-S; Liu H-F; Liu H; Liu J; Liu J; Liu J; Liu L; Liu L; Liu M; Liu Q; Liu W; Liu W; Liu X-H; Liu X; Liu X; Liu X; Liu X; Liu Y; Liu Y; Liu Y; Liu Y; Liu Y; Livingston JA; Lizard G; Lizcano JM; Ljubojevic-Holzer S; LLeonart ME; Llobet-Navas D; 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Manzano R; Manzoni C; Mao K; Marchese C; Marchetti S; Marconi AM; Marcucci F; Mardente S; Mareninova OA; Margeta M; Mari M; Marinelli S; Marinelli O; Marino G; Mariotto S; Marshall RS; Marten MR; Martens S; Martin APJ; Martin KR; Martin S; Martin S; Martin-Segura A; Martin-Acebes MA; Martin-Burriel I; Martin-Rincon M; Martin-Sanz P; Martina JA; Martinet W; Martinez A; Martinez A; Martinez J; Martinez Velazquez M; Martinez-Lopez N; Martinez-Vicente M; Martins DO; Lange U; Lopez-Perez O; Martins JO; Martins WK; Martins-Marques T; Marzetti E; Masaldan S; Masclaux-Daubresse C; Mashek DG; Massa V; Massieu L; Masson GR; Masuelli L; Masyuk AI; Masyuk TV; Matarrese P; Matheu A; Matoba S; Matsuzaki S; Mattar P; Matte A; Mattoscio D; Mauriz JL; Mauthe M; Mauvezin C; Maverakis E; Maycotte P; Mayer J; Mazzoccoli G; Mazzoni C; Mazzulli JR; McCarty N; McDonald C; McGill MR; McKenna SL; McLaughlin B; McLoughlin F; McNiven MA; McWilliams TG; Mechta-Grigoriou F; Medeiros TC; Medina DL; Megeney LA; Megyeri K; 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  • Editorial comment: AGING-US. 2020;12(22):22350-22351
    Dantuma NP; Hoppe T; Herzog LK
  • Review: FRONTIERS IN CHEMISTRY. 2020;8:64
    Gierisch ME; Giovannucci TA; Dantuma NP
  • Editorial comment: TRENDS IN BIOCHEMICAL SCIENCES. 2019;44(5):383-387
    Dissmeyer N; Coux O; Rodriguez MS; Barrio R; Core Group Members of PROTEOSTASIS
  • Editorial comment: JOURNAL OF CELL BIOLOGY. 2016;213(2):147-149
    Dantuma NP; Salomons FA
  • Review: FRONTIERS IN GENETICS. 2016;7:58
    Dantuma NP; Pfeiffer A
  • Review: EMBO JOURNAL. 2016;35(1):6-23
    Dantuma NP; van Attikum H
  • Review: EXPERIMENTAL CELL RESEARCH. 2014;329(1):9-17
    Dantuma NP; Acs K; Luijsterburg MS
  • Conference publication: JOURNAL OF NEUROLOGY NEUROSURGERY AND PSYCHIATRY. 2014;85:A14-A15
    Rauen M; Christensen K; Thirstrup K; Dantuma N; Norremolle A; Dachsel J; Fog K
  • Review: FRONTIERS IN MOLECULAR NEUROSCIENCE. 2014;7:70
    Dantuma NP; Bott LC
  • Review: TRENDS IN CELL BIOLOGY. 2012;22(9):483-491
    Dantuma NP; Hoppe T
  • Review: EXPERIMENTAL CELL RESEARCH. 2010;316(8):1289-1295
    Salomons FA; Acs K; Dantuma NP
  • Review: CARDIOVASCULAR RESEARCH. 2010;85(2):263-271
    Dantuma NP; Lindsten K
  • Review: DNA REPAIR. 2009;8(4):449-460
    Dantuma NP; Heinen C; Hoogstraten D
  • Meeting abstract: EUROPEAN NEUROPSYCHOPHARMACOLOGY. 2006;16:S183
    Dantuma NP; Menendez-Benito V; Verhoef LGGC
  • Letter: FASEB JOURNAL. 2006;20(7):1027-1028
    Lindsten K; Menendez-Benito V; Masucci MG; Dantuma NP
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Forskningsbidrag

  • Swedish Research Council
    1 January 2025 - 31 December 2027
    The removal of misfolded or otherwise damaged proteins from the intracellular environment is of critical importance for cells as these aberrant proteins can give rise to toxic protein aggregates. The main proteolytic mechanism for the destruction of misfolded proteins is the ubiquitin-proteasome system (UPS), which is a central player in cellular protein quality control. The UPS is a complex machinery involving hundreds of different proteins, many of which have distinct enzymatic activities and are, therefore, potentially druggable targets. In recent years, both inhibition and stimulation of the UPS have gained credit as means for therapeutic intervention in human diseases. Malignant cells typically produce high levels of misfolded proteins, which render them exquisitely sensitive to drugs that inhibit UPS activity. On the other hand, stimulation of the UPS may prevent the accumulation of aggregation-prone proteins in neurons, which plays a central role in a variety of age-related, neurodegenerative disorders, such as Alzheimer’s disease. We have previously established tools for the monitoring of UPS activity in normal and malignant cells and started a drug discovery campaign for UPS inhibitors. Here we propose 1) to study the mode of action of a novel inhibitor of the UPS with anti-tumor properties, 2) explore the potential of two cellular targets for stimulating the UPS and 3) inveistigate the status of the UPS in human embryonic stem cell-derived neuronal lineages.
  • Hjärnfonden
    1 July 2023 - 30 June 2025
  • Swedish Research Council
    1 January 2022 - 31 December 2024
  • Target identification of a novel inhibitor of the ubiquitin-proteasome system and autophagy
    Novo Nordisk Foundation
    1 April 2020 - 31 March 2021
  • In vivo validation of a novel inhibitor of the ubiquitin/proteasome system
    Novo Nordisk Foundation
    1 August 2019 - 31 July 2020
  • Development of ubiquitin inhibitors for cancer treatment
    Swedish Cancer Society
    1 January 2018
    A dysfunctional protein degradation plays an important role in cancer. Marking proteins with ubiquitin is central to protein degradation as it stimulates specific protein degradation. Ubiquitin is also important for a cell's ability to repair DNA damage. Many anti-cancer therapies are based on causing DNA damage in tumor cells and since tumor cells are often incapable of repairing DNA damage, such treatment mostly selectively targets cancer cells. Substances that inhibit the function of the ubiquitin in protein degradation and DNA repair can be used to kill the cancer cells. In this project, we plan to investigate two topics that we have identified in screens for their potential to slow down protein degradation. We have seen that these substances are toxic to the cancer cells. Our goal is to understand how they kill cancer cells and to study their activity in a mouse model. In another project, we have identified an enzyme which removes ubiquitin from proteins that act as key players in the regulation of repairing DNA damage. We want to develop substances that slow down ubiquitin-dependent processes, to drugs that block protein breakage in various ways or slow down the ability of cells to repair DNA damage. Blocking protein breakdown is a relatively new strategy for anti-cancer therapy. So far, there is only one approved anti-cancer drug that works this way, it has been used for several years to treat multiple myeloma.
  • Deutsche Forschungsgemeinschaft
    1 January 2018 - 31 December 2021
  • Deutsche Forschungsgemeinschaft
    1 January 2018 - 31 December 2021
  • Development of ubiquitin inhibitors for cancer treatment
    Swedish Cancer Society
    1 January 2017
    A dysfunctional protein degradation plays an important role in cancer. Marking proteins with ubiquitin is central to protein degradation as it stimulates specific protein degradation. Ubiquitin is also important for a cell's ability to repair DNA damage. Many anti-cancer therapies are based on causing DNA damage in tumor cells and since tumor cells are often incapable of repairing DNA damage, such treatment mostly selectively targets cancer cells. Substances that inhibit the function of the ubiquitin in protein degradation and DNA repair can be used to kill the cancer cells. In this project, we plan to investigate two topics that we have identified in screens for their potential to slow down protein degradation. We have seen that these substances are toxic to the cancer cells. Our goal is to understand how they kill cancer cells and to study their activity in a mouse model. In another project, we have identified an enzyme which removes ubiquitin from proteins that act as key players in the regulation of repairing DNA damage. We want to develop substances that slow down this enzyme because we have seen that the tumor cells become extremely sensitive to irradiation and so-called PARP inhibitors when they lack the enzyme. We want to develop substances that slow down ubiquitin-dependent processes, to drugs that block protein breakage in various ways or slow down the ability of cells to repair DNA damage. Blocking protein breakdown is a relatively new strategy for anti-cancer therapy. So far, there is only one approved anti-cancer drug that works this way, it has been used for several years to treat multiple myeloma.
  • Swedish Research Council
    1 January 2017 - 31 December 2020
  • Swiss National Science Foundation
    1 April 2016 - 31 March 2019
  • Development of ubiquitin inhibitors for cancer treatment
    Swedish Cancer Society
    1 January 2016
    A dysfunctional protein degradation plays an important role in cancer. Marking proteins with ubiquitin is central to protein degradation as it stimulates specific protein degradation. Ubiquitin is also important for a cell's ability to repair DNA damage. Many anti-cancer therapies are based on causing DNA damage in tumor cells and since tumor cells are often incapable of repairing DNA damage, such treatment mostly selectively targets cancer cells. Substances that inhibit the function of the ubiquitin in protein degradation and DNA repair can be used to kill the cancer cells. In this project, we plan to investigate two topics that we have identified in screens for their potential to slow down protein degradation. We have seen that these substances are toxic to the cancer cells. Our goal is to understand how they kill cancer cells and to study their activity in a mouse model. In another project, we have identified an enzyme which removes ubiquitin from proteins that act as key players in the regulation of repairing DNA damage. We want to develop substances that slow down this enzyme because we have seen that the tumor cells become extremely sensitive to irradiation and so-called PARP inhibitors when they lack the enzyme. We want to develop substances that slow down ubiquitin-dependent processes, to drugs that block protein breakage in various ways or slow down the ability of cells to repair DNA damage. Blocking protein breakdown is a relatively new strategy for anti-cancer therapy. So far, there is only one approved anti-cancer drug that works this way, it has been used for several years to treat multiple myeloma.
  • Swedish Research Council
    1 January 2016 - 31 December 2016
  • Swedish Research Council
    1 December 2015 - 30 November 2018
  • Development of ubiquitin inhibitors for cancer treatment
    Swedish Cancer Society
    1 January 2015
    A dysfunctional protein degradation plays an important role in cancer. Marking proteins with ubiquitin is central to protein degradation as it stimulates specific protein degradation. Ubiquitin is also important for a cell's ability to repair DNA damage. Many anti-cancer therapies are based on causing DNA damage in tumor cells and since tumor cells are often incapable of repairing DNA damage, such treatment mostly selectively targets cancer cells. Substances that inhibit the function of the ubiquitin in protein degradation and DNA repair can be used to kill the cancer cells. In this project, we plan to investigate two topics that we have identified in screens for their potential to slow down protein degradation. We have seen that these substances are toxic to the cancer cells. Our goal is to understand how they kill cancer cells and to study their activity in a mouse model. In another project, we have identified an enzyme which removes ubiquitin from proteins that act as key players in the regulation of repairing DNA damage. We want to develop substances that slow down this enzyme because we have seen that the tumor cells become extremely sensitive to irradiation and so-called PARP inhibitors when they lack the enzyme. We want to develop substances that slow down ubiquitin-dependent processes, to drugs that block protein breakage in various ways or slow down the ability of cells to repair DNA damage. Blocking protein breakdown is a relatively new strategy for anti-cancer therapy. So far, there is only one approved anti-cancer drug that works this way, it has been used for several years to treat multiple myeloma.
  • Study in the importance of protein degradation for cancer
    Swedish Cancer Society
    1 January 2014
    A dysfunctional protein degradation plays an important role in cancer. Marking of proteins with ubiquitin is central to protein degradation because the ubiquitin marks proteins for direct degradation. Ubiquitin is also important for a cell's ability to repair DNA damage. Many anti-cancer therapies are based on causing DNA damage in tumor cells. Because tumor cells are often incapable of repairing DNA damage, such treatment mostly selectively targets cancer cells. In this project, we plan to investigate the role of ubiquitin in repairing DNA damage. By studying with microscopy various proteins that are involved in repairing DNA damage in cells, we will study the importance of ubiquitin and protein degradation in the defense of the cells against DNA damage. We have also developed a test to screen large collections of chemicals to try to find potential drugs that can block the intracellular protein degradation. We want to achieve a better knowledge of how ubiquitin affects the repair of DNA damage. Which proteins are marked with ubiquitin when cells are exposed to DNA damage, how does the marker occur and leads it to protein degradation? We want to use our screen to find drugs that block nebulization in different ways. Blocking protein breakdown is a relatively new strategy for anti-cancer therapy. So far, there is only one approved anti-cancer drug that works this way, it has been used for several years to treat multiple myeloma.
  • Swedish Research Council
    1 January 2013 - 31 December 2015
  • Swedish Research Council
    1 January 2013 - 31 December 2016
  • Swedish Research Council
    1 January 2010 - 31 December 2012

Anställningar

  • Professor, Cell- och molekylärbiologi, Karolinska Institutet, 2011-

Examina och utbildning

  • Docent, Cellbiologi, Karolinska Institutet, 2009

Priser och utmärkelser

  • Eric K. Fernström Award, Annual price for young promising scientist awarded by the Fernström foundation. [‘... for his pioniering studies on the mechanisms for protein degradation. Of special importance is his discovery of domains that protect from degradation, so-called stabilization signals…..’], 2009
  • The Svedberg Award, Annual price for young researcher by the Swedish Society for Biochemistry and Molecular Biology and the National Committee for Molecular Biosciences, managed by the Royal Swedish Academy of Sciences. ‘… for his significant contribution into understanding of the mechanisms behind protein degradation and their importance for nerve degeneration.’, Royal Swedish Academy of Sciences, 2007

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