scholarly journals PARP7 mono-ADP-ribosylates the Agonist Conformation of the Androgen Receptor in the Nucleus

2021 ◽  
Author(s):  
Teddy Kamata ◽  
Chun-Song Yang ◽  
Bryce M Paschal
Keyword(s):  
Androgen Receptor ◽  
Nuclear Localization ◽  
Nuclear Import ◽  
Signal Transduction Pathway ◽  
Transduction Pathway ◽  
Adp Ribosylation ◽  
Ubiquitin E3 Ligase ◽  
Localization Signal ◽  
Heterodimeric Complex ◽  
Adp Ribosyltransferase

We recently described a signal transduction pathway that contributes to androgen receptor (AR) regulation based on site-specific ADP-ribosylation by PARP7, a mono-ADP-ribosyltransferase implicated in several human cancers. ADP-ribosylated AR is recognized by PARP9/DTX3L, a heterodimeric complex that contains an ADP-ribose reader (PARP9) and a ubiquitin E3 ligase (DTX3L).  Here, we have characterized the cellular and biochemical requirements for AR ADP-ribosylation by PARP7.  We found that the reaction requires nuclear localization of PARP7 and an agonist-induced conformation of AR.  PARP7 contains a Cys3His1-type zinc finger (ZF), which also is critical for AR ADP-ribosylation. The Parp7 ZF is required for efficient nuclear import by a nuclear localization signal (NLS) encoded in PARP7, but rescue experiments indicate the ZF makes a contribution to AR ADP-ribosylation that is separable from the effect on nuclear transport. ZF mutations do not detectably reduce PARP7 catalytic activity and binding to AR, but they do result in the loss of PARP7 enhancement of AR-dependent transcription of the MYBPC1 gene. Our data reveals critical roles for AR conformation and the PARP7 ZF in AR ADP-ribosylation and AR-dependent transcription.

scholarly journals PARP7 mono-ADP-ribosylates the Agonist Conformation of the Androgen Receptor in the Nucleus

2021 ◽  
Author(s):  
Teddy Kamata ◽  
Chun-Song Yang ◽  
Bryce M. Paschal
Keyword(s):  
Nuclear Localization ◽  
Signal Transduction Pathway ◽  
Transduction Pathway ◽  
Site Specific ◽  
Adp Ribosylation ◽  
Ubiquitin E3 Ligase ◽  
Transcriptional Effect ◽  
Localization Signal ◽  
Heterodimeric Complex ◽  
Adp Ribosyltransferase

We recently described a signal transduction pathway that contributes to AR regulation based on site-specific ADP-ribosylation by PARP7, a mono-ADP-ribosyltransferase implicated in several human cancers. ADP-ribosylated AR is specifically recognized by PARP9/DTX3L, a heterodimeric complex that contains an ADP-ribose reader (PARP9) and a ubiquitin E3 ligase (DTX3L). Here, we have characterized the cellular and biochemical requirements for AR ADP-ribosylation by PARP7. We found that the reaction requires nuclear localization of PARP7 and an agonist-induced conformation of AR. PARP7 contains a Cys3His1-type zinc finger (ZF), which we found is critical for AR ADP-ribosylation. The Parp7 ZF is required for efficient nuclear localization by the nuclear localization signal (NLS) encoded in PARP7, but rescue experiments indicate the ZF makes a contribution to AR ADP-ribosylation that is transport-independent. ZF structure appears to be dispensable for PARP7 catalytic activity and for PARP7 binding to AR. Androgen induction of the MYBPC1 gene is regulated by AR and PARP7, and we determined that the ZF is required for the PARP7 transcriptional effect on MYBPC1. Our data indicate the PARP7 ZF plays an important role in modulating the subcellular localization of PARP7 and its capacity to ADP-ribosylate and promote AR-dependent transcription.

scholarly journals Nuclear import of the human androgen receptor

1993 ◽  
Vol 293 (3) ◽  
pp. 761-768 ◽  
Author(s):  
G Jenster ◽  
J Trapman ◽  
A O Brinkmann
Keyword(s):  
Androgen Receptor ◽  
Cell Line ◽  
Nuclear Localization ◽  
Nuclear Import ◽  
Nuclear Localization Signal ◽  
Subcellular Distribution ◽  
Wild Type ◽  
Cytoplasmic Staining ◽  
Localization Signal ◽  
Human Androgen Receptor

Nuclear import of the human androgen receptor was investigated by immunocytochemical analysis of androgen receptor deletion and substitution mutants, which were transiently expressed in COS-1 cells. The signal responsible for nuclear import is encoded by amino-acid residues 608-625 and is functionally similar to the bipartite nucleoplasmin nuclear-localization signal. Although the subcellular distribution of androgen receptors mutated in the DNA-binding domain was unchanged compared with the wild-type androgen receptor, in the presence of ligand these mutations resulted in part of the receptor population forming clusters. Depending on the presence or absence of the bipartite nuclear localization signal, clusters were formed in the nucleus or in the cytoplasm, respectively. Expression of the wild-type androgen receptor in different cell lines revealed a cell-line-specific subcellular distribution of the unliganded receptor. The androgen receptor was predominantly nuclear when expressed in HeLa cells, whereas mainly cytoplasmic staining was observed when it was expressed in COS-1 cells. In the presence of hormone, the androgen receptor was located in the nucleus, independent of the cell line that was expressing the receptor. Anti-androgens and various steroid hormones induced the nuclear localization of the wild-type androgen receptor in a dose-dependent way, without activating transcription of an androgen-regulated reporter gene. This indicates that the inability of the tested compounds to activate transcription is not due to inhibited nuclear import.

Nuclear import of glycoconjugates is distinct from the classical NLS pathway

1995 ◽  
Vol 108 (4) ◽  
pp. 1325-1332 ◽  
Author(s):  
E. Duverger ◽  
C. Pellerin-Mendes ◽  
R. Mayer ◽  
A.C. Roche ◽  
M. Monsigny
Keyword(s):  
Nuclear Localization ◽  
Nuclear Import ◽  
Nuclear Localization Signal ◽  
Peptide Sequence ◽  
Nuclear Pore ◽  
Dependent Manner ◽  
Permeabilized Cells ◽  
Localization Signal ◽  
Energy Dependent ◽  
Cytosolic Factors

The nuclear import of many proteins depends on a short peptide sequence called the nuclear localization signal. However, glycosylated proteins, which lack such a nuclear localization signal, upon their injection into the cytosol by electroporation, enter the nucleus in a sugar-dependent manner. This paper brings new insights on the mechanism of this process, based on a study of neoglycoprotein nuclear uptake by digitonin-permeabilized cells. The nuclear import of neoglycoproteins is energy dependent: it does not occur when cells are maintained at 4 degrees C or when cells are ATP-depleted by treatment with apyrase. The nuclear import of neoglycoproteins occurs through the nuclear pore: it is inhibited by preincubation of cells with wheat germ agglutinin, a lectin which binds the nuclear pore glycoproteins and blocks the translocation step of nuclear localization signal bearing proteins through the nuclear pore. Furthermore, the nuclear import of neoglycoproteins does not use the pathway of nuclear localization signal bearing proteins: nuclear import of nuclear localization signal bearing proteins depends on cytosolic factors and is inhibited by treatment of cells with N-ethylmaleimide, while the nuclear import of neoglycoproteins neither requires added cytosolic factors nor is sensitive to alkylation by N-ethylmaleimide. In addition, upon incubation in the presence of a large excess of nuclear localization signal bearing protein, the nuclear import of neoglycoproteins is not inhibited.

Nuclear transport of the U2 snRNP-specific U2B'' protein is mediated by both direct and indirect signalling mechanisms

1994 ◽  
Vol 107 (7) ◽  
pp. 1807-1816 ◽  
Author(s):  
C. Kambach ◽  
I.W. Mattaj
Keyword(s):  
Nuclear Localization ◽  
Nuclear Import ◽  
Nuclear Localization Signal ◽  
Nuclear Transport ◽  
U2 Snrna ◽  
Central Segment ◽  
U2 Snrnp ◽  
U1 Snrnp ◽  
Localization Signal ◽  
Protein Amino Acids

Experiments investigating the nuclear import of the U2 snRNP-specific B'' protein (U2B'') are presented. U2B'' nuclear transport is shown to be able to occur independently of binding to U2 snRNA. The central segment of the protein (amino acids 90–146) encodes an unusual nuclear localization signal (NLS) that is related to that of the U1 snRNP-specific A protein. However, nuclear import of U2B'' does not depend on this NLS. Sequences in the N-terminal RNP motif of the protein are sufficient to direct nuclear transport, and evidence is presented that the interaction of U2B'' with the U2A' protein mediates this effect. This suggests that U2B'' can ‘piggy-back’ to the nucleus in association with U2A’, and thus be imported to the nucleus by two different mechanisms. U2A' nuclear transport, on the other hand, can occur independently of both U2B'' binding and of U2 snRNA.

scholarly journals Mechanisms Directing the Nuclear Localization of the CtBP Family Proteins

2006 ◽  
Vol 26 (13) ◽  
pp. 4882-4894 ◽  
Author(s):  
Alexis Verger ◽  
Kate G. R. Quinlan ◽  
Linda A. Crofts ◽  
Stefania Spanò ◽  
Daniela Corda ◽  
...  
Keyword(s):  
Nuclear Localization ◽  
Nuclear Import ◽  
Nuclear Localization Signal ◽  
Transcriptional Repression ◽  
Intracellular Trafficking ◽  
Nuclear Accumulation ◽  
Splice Isoforms ◽  
Localization Signal ◽  
Splice Isoform ◽  
Partner Proteins

ABSTRACT The C-terminal binding protein (CtBP) family includes four proteins (CtBP1 [CtBP1-L], CtBP3/BARS [CtBP1-S], CtBP2, and RIBEYE) which are implicated both in transcriptional repression and in intracellular trafficking. However, the precise mechanisms by which different CtBP proteins are targeted to different subcellular regions remains unknown. Here, we report that the nuclear import of the various CtBP proteins and splice isoforms is differentially regulated. We show that CtBP2 contains a unique nuclear localization signal (NLS) located within its N-terminal region, which contributes to its nuclear accumulation. Using heterokaryon assays, we show that CtBP2 is capable of shuttling between the nucleus and cytoplasm of the cell. Moreover, CtBP2 can heterodimerize with CtBP1-L and CtBP1-S and direct them to the nucleus. This effect strongly depends on the CtBP2 NLS. PXDLS motif-containing transcription factors, such as BKLF, that bind CtBP proteins can also direct them to the nucleus. We also report the identification of a splice isoform of CtBP2, CtBP2-S, that lacks the N-terminal NLS and localizes to the cytoplasm. Finally, we show that mutation of the CtBP NADH binding site impairs the ability of the proteins to dimerize and to associate with BKLF. This reduces the nuclear accumulation of CtBP1. Our results suggest a model in which the nuclear localization of CtBP proteins is influenced by the CtBP2 NLS, by binding to PXDLS motif partner proteins, and through the effect of NADH on CtBP dimerization.

scholarly journals Nuclear Localization Signal and Protein Context both Mediate Importin α Specificity of Nuclear Import Substrates

2006 ◽  
Vol 26 (23) ◽  
pp. 8697-8709 ◽  
Author(s):  
Beate Friedrich ◽  
Christina Quensel ◽  
Thomas Sommer ◽  
Enno Hartmann ◽  
Matthias Köhler
Keyword(s):  
Nuclear Localization ◽  
Nuclear Import ◽  
Nuclear Localization Signal ◽  
Protein Import ◽  
Binding Studies ◽  
Vitro Binding ◽  
Importin Α ◽  
Localization Signal ◽  
Experimental Approaches

ABSTRACT The “classical” nuclear protein import pathway depends on importin α and importin β. Importin α binds nuclear localization signal (NLS)-bearing proteins and functions as an adapter to access the importin β-dependent import pathway. In humans, only one importin β is known to interact with importin α, while six α importins have been described. Various experimental approaches provided evidence that several substrates are transported specifically by particular α importins. Whether the NLS is sufficient to mediate importin α specificity is unclear. To address this question, we exchanged the NLSs of two well-characterized import substrates, the seven-bladed propeller protein RCC1, preferentially transported into the nucleus by importin α3, and the less specifically imported substrate nucleoplasmin. In vitro binding studies and nuclear import assays revealed that both NLS and protein context contribute to the specificity of importin α binding and transport.

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