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Accumulation of c-Myc and proteasomes at the nucleoli of cells containing elevated c-Myc protein levels
Södertörn University, Avdelning Naturvetenskap. Karolinska Institute.
Södertörn University, Avdelning Naturvetenskap. Stockholm University.
Södertörn University, Avdelning Naturvetenskap.
Södertörn University, Avdelning Naturvetenskap. Karolinska Institute.ORCID iD: 0000-0003-1029-9969
2003 (English)In: Journal of Cell Science, ISSN 0021-9533, E-ISSN 1477-9137, Vol. 116, no 9, p. 1707-1717Article in journal (Refereed) Published
Abstract [en]

c-Myc is a predominately nuclear transcription factor that is a substrate for rapid turnover by the proteasome system. Cancer-related mutations in c-Myc lead to defects in its degradation and thereby contribute to the increase in its cellular level that is associated with the disease. Little is known about the mechanisms that target c-Myc to the proteasomes. By using a GFP fusion protein and live analysis we show that c-Myc shuttles between the nucleus and cytoplasm and thus it could be degraded in either compartment. Strikingly, at elevated levels of expression c-Myc accumulates at nucleoli in some cells, consistent with saturation of a nucleolus-associated degradation system in these cells. This idea is further supported by the observation that proteasome inhibitor treatment causes accumulation of c-Myc at the nucleoli of essentially all cells. Under these conditions c-Myc is relatively stably associated with the nucleolus, as would be expected if the nucleolus functions as a sequestration/degradation site for excess c-Myc. Furthermore, during elevated c-Myc expression or proteasome inhibition, nucleoli that are associated with c-Myc also accumulate proteasomes. c-Myc and proteasomes co-localise in intranucleolar regions distinct from the dense fibrillar component of the nucleolus. Based on these results we propose a model for c-Myc downregulation where c-Myc is sequestered at the nucleoli. Sequestration of c-Myc is accompanied by recruitment of proteasomes and may lead to subsequent degradation.

Place, publisher, year, edition, pages
2003. Vol. 116, no 9, p. 1707-1717
National Category
Cell Biology
Identifiers
URN: urn:nbn:se:sh:diva-15546DOI: 10.1242/jcs.00370ISI: 000182903600008PubMedID: 12665552Scopus ID: 2-s2.0-0037650101OAI: oai:DiVA.org:sh-15546DiVA, id: diva2:504721
Available from: 2012-02-21 Created: 2012-02-21 Last updated: 2017-12-07Bibliographically approved
In thesis
1. Regulation of the ribosomal RNA transcription by c-MYC oncoprotein
Open this publication in new window or tab >>Regulation of the ribosomal RNA transcription by c-MYC oncoprotein
2006 (English)Doctoral thesis, comprehensive summary (Other academic)
Abstract [en]

The transcription factor c-Myc is a key regulator of growth and proliferation. c-Myc levels are tightly controlled and deregulated c-Myc is often associated with human cancers. In our initial studies we observed that upon inhibition of proteasomes, excess c-Myc accumulates primarily in the nucleoli. After further investigation we could show that c-Myc binds to and activates RNA polymerase I-mediated transcription of the ribosomal RNA (rRNA) genes located in the nucleoli and that proteasomes are involved in this process. We demonstrate that upon an increase in c-Myc levels through either inhibition of the proteasomes or high expression, c-Myc accumulates in the nucleoli. The dynamics of the nucleoplasmic and the nucleolar c-Myc was studied in living cells expressing GFP-fused cMyc using the Fluorescent loss in photo-bleaching and the Fluorescent recovery after photobleaching techniques. We show that c-Myc is relatively stably associated with the nucleoli. In addition, we show that proteasomes accumulate and co-localise with nucleolar c-Myc. We further investigate the function of c-Myc in the nucleoli and show that c-Myc and Max interact in the nucleoli and are associated with the ribosomal DNA. Upon mitogenic stimulation of quiescent human lymphocytes c-Myc is recruited to the rRNA genes together with pol I. Association of c-Myc with the rDNA is also accompanied by an increase in rDNA histone acetylation and activation of rRNA transcription. Inhibition of c-Myc inhibits rRNA transcription. These results suggest that c-Myc plays a key role in regulating ribosome biogenesis and thus cell growth. We also show that proteasomes are required for activation of rRNA transcription, even though c-Myc levels increase in response to reduced proteasome activity. The role of proteasomes in rDNA transcription remains to be determined. We also investigate the role of c-Myc in regulation of the nucleolar organisation and induction of nucleolar alterations in cancer cells. Several types of human cancers with nucleolar alterations including cancers of blood, prostate and breast are also associated with deregulated levels of c-Myc. However, it is not known whether c-Myc contributes to the induction of nucleolar changes in these cancers. We show that despite high levels, c-Myc does not accumulate in the nucleoli in lymphoma and breast cancer cell lines. This is intriguing since nucleolar accumulation of excess c-Myc in other cell lines is associated with inhibition of rRNA transcription.

Place, publisher, year, edition, pages
Stockholm: Karolinska Instiutet, 2006. p. 52
National Category
Biological Sciences
Identifiers
urn:nbn:se:sh:diva-31993 (URN)91-7140-947-5 (ISBN)
Public defence
2006-12-21, MA636, Alfred Nobels allé 7, Huddinge, 10:00 (English)
Opponent
Supervisors
Available from: 2017-02-08 Created: 2017-02-08 Last updated: 2017-02-08Bibliographically approved
2. Dynamic aspects of nucleocytoplasmic trafficking
Open this publication in new window or tab >>Dynamic aspects of nucleocytoplasmic trafficking
2004 (English)Doctoral thesis, comprehensive summary (Other academic)
Abstract [en]

Cellular structures and compartmentalization is the result of a dynamic steady state exchange between its components. This thesis is focused in investigations of dynamic properties of green fluorescent protein (GFP)-labeled proteins in live cells using confocal laser microscopy in combination with bleaching techniques such as fluorescence recovery after photobleaching (FRAP) and fluorescence loss in photobleaching (FLIP).

Studies of dynamic properties of c-Myc in living cells showed that c-Myc is shuttling between the nucleus and the cytoplasm. c-Myc also enters the nucleoli during certain conditions. Nucleolar c-Myc is dynamically associated to structural component(s) of nucleoli, but can exchange with soluble pools in the nucleoplasm and cytoplasm.

Photobleaching experiments showed that a significant fraction of HIV-1 Vpr is dynamically associated with the NE and rapidly exchanges between the nucleoplasm and the cytoplasm. The yeast two-hybrid system, pull-down experiments and co-immunoprecipitating was used to show that Vpr interacts specifically and directly with a domain in the N-terminal portion of the NPC protein hCG1. The results suggest that the specific interaction of HIV-1 Vpr with the nucleoporin hCG1 results in the dynamic retention of Vpr at the nuclear envelope.

The distribution and dynamic properties of NPC proteins was investigated in NIH/3T3 cells, lacking the pore membrane protein gp210. Confocal laser scanning microscopy and FRAP experiments showed that the absence of gp210 from nuclear pores of NIH/3T3 cells did neither alter the distribution nor dynamic properties of POM121 and NUP107 (two NPC proteins stably integrated in the NPC).

Degradation of the integral nuclear pore membrane protein POM121 during apoptosis was investigated in relation to other apoptotic events. POM121 cleavage, which is the earliest sign of dismantling of the nuclear membrane, is due to caspase-3-dependent cleavage at aspartate-531. Loss of nuclear compartmentalization in live cells undergoing apoptosis was monitored as appearance of GFP-NLS in the cytoplasm. The time of appearance of cytoplasmic GFP-NLS correlated with caspase-3-dependent cleavage of POM121. Both events occured concomitantly with collapsing of chromatin against the nuclear periphery, but preceded the onset of nucleosomal DNA fragmentation.

Translocation ability of the cell-penetrating peptide, transportan, into living cells was investigated. Recombinantly expressed GFP was purified and conjugated to chemically synthesized transportan via a disulfide bond and added to tissues culture cells. Transportan was able to internalize a 27 kDa protein such as GFP in a native folded state into living cells.

Place, publisher, year, edition, pages
Stockholm: Institutionen för neurokemi, Stockholms universitet, 2004. p. 41
National Category
Cell and Molecular Biology
Identifiers
urn:nbn:se:sh:diva-32045 (URN)91-7265-803-7 (ISBN)
Public defence
2004-05-28, Magnélisalen, Kemiska övningslaboratoriet, Svante Arrhenius väg 12 A, Stockholm, 10:00
Opponent
Supervisors
Available from: 2017-02-13 Created: 2017-02-13 Last updated: 2018-01-13Bibliographically approved

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Arabi, AzadehRustum, CeciliaHallberg, EinarWright, Anthony P H

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