Vpr Targets TET2 for Degradation by CRL4VprBP E3 Ligase to Sustain IL-6 Expression and Enhance HIV-1 Replication.

HIV-1 expresses several accessory proteins to counteract host anti-viral restriction factors to facilitate viral replication and disease progression. One such protein, Vpr, has been implicated in affecting multiple cellular processes, but its mechanism remains elusive. Here we report that Vpr targets TET2 for polyubiquitylation by the VprBP-DDB1-CUL4-ROC1 E3 ligase and subsequent degradation. Genetic inactivation or Vpr-mediated degradation of TET2 enhances HIV-1 replication and substantially sustains expression of the pro-inflammatory cytokine interleukin-6 (IL-6). This process correlates with reduced recruitment of histone deacetylase 1 and 2 to the IL-6 promoter, thus enhancing its histone H3 acetylation level during resolution phase. Blocking IL-6 signaling reduced the ability of Vpr to enhance HIV-1 replication. We conclude that HIV-1 Vpr degrades TET2 to sustain IL-6 expression to enhance viral replication and disease progression. These results suggest that disrupting the Vpr-TET2-IL6 axis may prove clinically beneficial to reduce both viral replication and inflammation during HIV-1 infection.

TANK Binding Kinase 1 Promotes BACH1 Degradation through Both Phosphorylation-Dependent and -Independent Mechanisms without Relying on Heme and FBXO22.

BTB and CNC homology 1 (BACH1) represses the expression of genes involved in the metabolism of iron, heme and reactive oxygen species. While BACH1 is rapidly degraded when it is bound to heme, it remains unclear how BACH1 degradation is regulated under other conditions. We found that FBXO22, a ubiquitin ligase previously reported to promote BACH1 degradation, polyubiquitinated BACH1 only in the presence of heme in a highly purified reconstitution assay. In parallel to this regulatory mechanism, TANK binding kinase 1 (TBK1), a protein kinase that activates innate immune response and regulates iron metabolism via ferritinophagy, was found to promote BACH1 degradation when overexpressed in 293T cells. While TBK1 phosphorylated BACH1 at multiple serine and threonine residues, BACH1 degradation was observed with not only the wild-type TBK1 but also catalytically impaired TBK1. The BACH1 degradation in response to catalytically impaired TBK1 was not dependent on FBXO22 but involved both autophagy-lysosome and ubiquitin-proteasome pathways judging from its suppression by using inhibitors of lysosome and proteasome. Chemical inhibition of TBK1 in hepatoma Hepa1 cells showed that TBK1 was not required for the heme-induced BACH1 degradation. Its inhibition in Namalwa B lymphoma cells increased endogenous BACH1 protein. These results suggest that TBK1 promotes BACH1 degradation in parallel to the FBXO22- and heme-dependent pathway, placing BACH1 as a downstream effector of TBK1 in iron metabolism or innate immune response.

CRL4(VprBP) E3 ligase promotes monoubiquitylation and chromatin binding of TET dioxygenases.

DNA methylation at the C-5 position of cytosine (5mC) regulates gene expression and plays pivotal roles in various biological processes. The TET dioxygenases catalyze iterative oxidation of 5mC, leading to eventual demethylation. Inactivation of TET enzymes causes multistage developmental defects, impaired cell reprogramming, and hematopoietic malignancies. However, little is known about how TET activity is regulated. Here we show that all three TET proteins bind to VprBP and are monoubiquitylated by the VprBP-DDB1-CUL4-ROC1 E3 ubiquitin ligase (CRL4(VprBP)) on a highly conserved lysine residue. Deletion of VprBP in oocytes abrogated paternal DNA hydroxymethylation in zygotes. VprBP-mediated monoubiquitylation promotes TET binding to chromatin. Multiple recurrent TET2-inactivating mutations derived from leukemia target either the monoubiquitylation site (K1299) or residues essential for VprBP binding. Cumulatively, our data demonstrate that CRL4(VprBP) is a critical regulator of TET dioxygenases during development and in tumor suppression.

COOH-terminal fragment of APP interacts with p62, forms an aggregate, and induces autophagic degradation in Alzheimer's cell model.

Alzheimer's disease is an intractable disease, and the accumulation of amyloid ß in the brain is thought to be involved in the onset of the disease. Additionally, abnormal protein accumulation due to autophagic deficiency may also be involved in disease progression. Autophagy involves a mechanism called selective autophagy. However, the relationship between selective autophagy and the amyloid precursor protein (APP) remains unclear. In the present study, we analyzed the interaction between p62, an adapter protein, and an APP-related molecule and found that p62 interacted with the COOH-terminal fragment of APP (C60). When C60 and p62 are overexpressed, aggregates are formed and C60 is degraded by autophagy. These aggregates cannot be easily degraded, even with a reducing agent. We also found that autophagosome- and lysosome marker-positive vesicles were formed in the C60- and p62-expressing cells. Superresolution technology also revealed that p62-C60-positive autophagosomes were formed in the cells. Overall, these results suggest that p62 may bind with C60 to form aggregates and induce autophagy in autophagosomes. These results reveal one of the mechanisms underlying the progression of Alzheimer's disease, in which selective autophagy may be involved.

Insulin Enhances Gene Expression of Midnolin, a Novel Genetic Risk Factor for Parkinson's Disease, via Extracellular Signal-Regulated Kinase, Phosphoinositide 3-Kinase and Multiple Transcription Factors in SH-SY5Y Cells.

Parkinson's disease (PD) is the second most common neurodegenerative disease. Although many monogenic variants have been identified that cause familial PD, most cases are sporadic and the mechanisms of sporadic PD onset remain unclear. We previously identified midnolin (MIDN) as a novel genetic risk factor for PD in a Japanese population. MIDN copy number loss was strongly associated with sporadic PD, which was replicated in a British population. Furthermore, suppression of MIDN expression in rat pheochromocytoma cells inhibits neurite outgrowth and expression of Parkin ubiquitin ligase. However, the detailed molecular mechanisms of MIDN expression are unknown. We, therefore, investigated the molecular mechanism of MIDN expression in human neuroblastoma SH-SY5Y cells. We found that MIDN expression was promoted by insulin via extracellular-signal regulated kinase1/2 and phosphoinositide 3-kinase-dependent pathways. In addition, MIDN promoter activity was enhanced by mutations at transcription factor AP-2 consensus sequences and reduced by mutations at cAMP response element-binding protein and activator protein 1 (AP-1) consensus sequences. The dominant-negative cAMP response element-binding protein mutant did not block MIDN promoter activity, but both the pharmacological inhibitor and decoy oligodeoxynucleotide for AP-1 significantly blocked its activity. Additionally, DNA binding of c-FOS and c-JUN to the AP-1 consensus sequence in the MIDN promoter was enhanced by insulin as determined by chromatin immunoprecipitation, which suggested that AP-1 positively regulated MIDN expression. Taken together, this study reveals molecular mechanisms of MIDN gene expression induced by insulin in neuronal cells, and drugs which promote MIDN expression may have potential to be a novel medicine for PD. SIGNIFICANCE STATEMENT: We demonstrated that insulin promotes midnolin expression via extracellular-signal regulated kinase 1/2 and phosphoinositide 3-kinase pathways. Furthermore, we identified the important region of the MIDN promoter and showed that transcription factors, including activator protein 1, positively regulate MIDN expression, whereas transcription factor AP-2 negatively regulates basal and insulin-induced MIDN expression. We believe that our observations are important and that they contribute to the development of novel drugs to treat Parkinson's disease.

Pathogenic mutations in the ALS gene CCNF cause cytoplasmic mislocalization of Cyclin F and elevated VCP ATPase activity.

Amyotrophic lateral sclerosis (ALS) is an adult-onset motor neuron disease characterized by a progressive decline in motor function. Genetic analyses have identified several genes mutated in ALS patients, and one of them is Cyclin F gene (CCNF), the product of which (Cyclin F) serves as the substrate-binding module of a SKP1-CUL1-F-box protein (SCF) ubiquitin ligase complex. However, the role of Cyclin F in ALS pathogenesis has remained unclear. Here, we show that Cyclin F binds to valosin-containing protein (VCP), which is also reported to be mutated in ALS, and that the two proteins colocalize in the nucleus. VCP was found to bind to the NH2-terminal region of Cyclin F and was not ubiquitylated by SCFCyclin F in transfected cells. Instead, the ATPase activity of VCP was enhanced by Cyclin F in vitro. Furthermore, whereas ALS-associated mutations of CCNF did not affect the stability of Cyclin F or disrupt formation of the SCFCyclin F complex, amino acid substitutions in the VCP binding region increased the binding ability of Cyclin F to VCP and activity of VCP as well as mislocalization of the protein in the cytoplasm. We also provided evidence that the ATPase activity of VCP promotes cytoplasmic aggregation of transactivation responsive region (TAR) DNA-binding protein 43, which is commonly observed in degenerating neurons in ALS patients. Given that mutations of VCP identified in ALS patients also increase its ATPase activity, our results suggest that Cyclin F mutations may contribute to ALS pathogenesis by increasing the ATPase activity of VCP in the cytoplasm, which in turn increases TDP-43 aggregates.

The ubiquitin ligase subunit ß-TrCP in Sertoli cells is essential for spermatogenesis in mice.

ß-TrCP is the substrate recognition subunit of an SCF-type ubiquitin ligase. We recently showed that deletion of the genes for both ß-TrCP1 and ß-TrCP2 paralogs in germ cells of male mice resulted in accumulation of the transcription factor DMRT1 and spermatogenic failure, whereas systemic ß-TrCP1 knockout combined with ß-TrCP2 knockdown had previously been shown to lead to disruption of testicular organization and accumulation of the transcription factor SNAIL. Here we investigated ß-TrCP function in Sertoli cells by generating mice with targeted deletion of the ß-TrCP2 gene in Sertoli cells on a background of whole-body ß-TrCP1 knockout. Loss of ß-TrCP in Sertoli cells caused infertility due to a reduction in the number of mature sperm. Whereas spermatogonia were not affected, male germ cells entered meiosis prematurely and the number of round spermatids was reduced in the mutant mice. Extracts of Sertoli cells and of the testis from the mutant mice manifested accumulation of SNAIL, and expression of the SNAIL target gene for E-cadherin was down-regulated in Sertoli cells from these animals. Our results indicate that ß-TrCP in Sertoli cells regulates Sertoli cell-germ cell interaction through degradation of SNAIL, with such regulation being critical for sperm development.

Regulation of mitosis-meiosis transition by the ubiquitin ligase ß-TrCP in male germ cells.

The mitosis-meiosis transition is essential for spermatogenesis. Specific and timely downregulation of the transcription factor DMRT1, and consequent induction of Stra8 expression, is required for this process in mammals, but the molecular mechanism has remained unclear. Here, we show that ß-TrCP, the substrate recognition component of an E3 ubiquitin ligase complex, targets DMRT1 for degradation and thereby controls the mitosis-meiosis transition in mouse male germ cells. Conditional inactivation of ß-TrCP2 in male germ cells of ß-TrCP1 knockout mice resulted in sterility due to a lack of mature sperm. The ß-TrCP-deficient male germ cells did not enter meiosis, but instead underwent apoptosis. The induction of Stra8 expression was also attenuated in association with the accumulation of DMRT1 at the Stra8 promoter in ß-TrCP-deficient testes. DMRT1 contains a consensus ß-TrCP degron sequence that was found to bind ß-TrCP. Overexpression of ß-TrCP induced the ubiquitylation and degradation of DMRT1. Heterozygous deletion of Dmrt1 in ß-TrCP-deficient spermatogonia increased meiotic cells with a concomitant reduction of apoptosis. Collectively, our data indicate that ß-TrCP regulates the transition from mitosis to meiosis in male germ cells by targeting DMRT1 for degradation.

Knockout Mouse Models Provide Insight into the Biological Functions of CRL1 Components.

The CRL1 complex, also known as the SCF complex, is a ubiquitin ligase that in mammals consists of an adaptor protein (SKP1), a scaffold protein (CUL1), a RING finger protein (RBX1, also known as ROC1), and one of about 70 F-box proteins. Given that the F-box proteins determine the substrate specificity of the CRL1 complex, the variety of these proteins allows the generation of a large number of ubiquitin ligases that promote the degradation or regulate the function of many substrate proteins and thereby control numerous key cellular processes. The physiological and pathological functions of these many CRL1 ubiquitin ligases have been studied by the generation and characterization of knockout mouse models that lack specific CRL1 components. In this chapter, we provide a comprehensive overview of these mouse models and discuss the role of each CRL1 component in mouse physiology and pathology.

X-linked mental retardation gene CUL4B targets ubiquitylation of H3K4 methyltransferase component WDR5 and regulates neuronal gene expression.

CUL4B, encoding a scaffold protein for the assembly of Cullin4B-Ring ubiquitin ligase (CRL4B) complexes, is frequently mutated in X-linked mental retardation (XLMR) patients. Here, we show that CUL4B, but not its paralog, CUL4A, targets WDR5, a core subunit of histone H3 lysine 4 (H3K4) methyltransferase complexes, for ubiquitylation and degradation in the nucleus. Knocking down CUL4B increases WDR5 and trimethylated H3K4 (H3K4me3) on the neuronal gene promoters and induces their expression. Furthermore, CUL4B depletion suppresses neurite outgrowth of PC12 neuroendocrine cells, which can be rescued by codepletion of WDR5. XLMR-linked mutations destabilize CUL4B and impair its ability to support neurite outgrowth of PC12 cells. Our results identify WDR5 as a critical substrate of CUL4B in regulating neuronal gene expression and suggest epigenetic change as a common pathogenic mechanism for CUL4B-associated XLMR.

Prospective cohort study for identification of underlying genetic causes in neonatal encephalopathy using whole-exome sequencing.

PurposeNeonatal encephalopathy, which is characterized by a decreased level of consciousness, occurs in 1-7/1,000 live-term births. In more than half of term newborns, there is no identifiable etiological factor. To identify underlying genetic defects, we applied whole-exome sequencing (WES) in term newborns with neonatal encephalopathy as a prospective cohort study.MethodsTerm newborns with neonatal encephalopathy and no history of perinatal asphyxia were included. WES was performed using patient and both parents' DNA.ResultsNineteen patients fulfilling inclusion criteria were enrolled. Five patients were excluded owing to withdrawal of consent, no parental DNA samples, or a genetic diagnosis prior to WES. Fourteen patients underwent WES. We confirmed a genetic diagnosis in five patients (36%): epileptic encephalopathy associated with autosomal dominant de novo variants in SCN2A (p.Met1545Val), KCNQ2 (p.Asp212Tyr), and GNAO1 (p.Gly40Arg); lipoic acid synthetase deficiency due to compound heterozygous variants in LIAS (p.Ala253Pro and p.His236Gln); and encephalopathy associated with an X-linked variant in CUL4B (p.Asn211Ser).ConclusionWES is helpful at arriving genetic diagnoses in neonatal encephalopathy and/or seizures and brain damage. It will increase our understanding and probably enable us to develop targeted neuroprotective treatment strategies.

Protein monoubiquitylation: targets and diverse functions.

Ubiquitin is a 76-amino acid protein whose conjugation to protein targets is a form of post-translational modification. Protein ubiquitylation is characterized by the covalent attachment of the COOH-terminal carboxyl group of ubiquitin to an amino group of the substrate protein. Given that the NH2 -terminal amino group is usually masked, internal lysine residues are most often targeted for ubiquitylation. Polyubiquitylation refers to the formation of a polyubiquitin chain on the substrate as a result of the ubiquitylation of conjugated ubiquitin. The structures of such polyubiquitin chains depend on the specific lysine residues of ubiquitin targeted for ubiquitylation. Most of the polyubiquitin chains other than those linked via lysine-63 and methionine-1 of ubiquitin are recognized by the proteasome and serve as a trigger for substrate degradation. In contrast, polyubiquitin chains linked via lysine-63 and methionine-1 serve as a binding platform for proteins that function in immune signal transduction or DNA repair. With the exception of a few targets such as histones, the functions of protein monoubiquitylation have remained less clear. However, recent proteomics analysis has shown that monoubiquitylation occurs more frequently than polyubiquitylation, and studies are beginning to provide insight into its biologically important functions. Here, we summarize recent findings on protein monoubiquitylation to provide an overview of the targets and molecular functions of this modification.

Visualization of Lymph/Blood Flow in Laparoscopic Colorectal Cancer Surgery by ICG Fluorescence Imaging (Lap-IGFI).

PURPOSE: In laparoscopic colorectal cancer (Lap-CRC) surgery, determination of a suitable mesentery division line and the appropriate degree of lymphadenectomy by tracing the blood supply is critical. We performed visualization of the lymph and blood flow by laparoscopic indocyanine green (ICG) fluorescence imaging (Lap-IGFI). METHODS: ICG is injected into the submucosa near the tumor via colonoscopy, and the lymph flow is observed. Intestinal blood flow is evaluated by administering ICG intravenously. RESULTS: For lymph flow, visualization of the main lymph node basin helped to determine the surgical division line for cases in which the blood flow was not completely visualized. Lap-IGFI changed the surgical plan of the lymphadenectomy in 23.5 %. In our experience, the metastatic rate of ICG-positive nodes was 10.0 %, and the metastatic rate of ICG-negative nodes was 5.3 %. Furthermore, there were no metastatic nodes that were ICG negative more than 5 cm from the tumor. For blood flow, the blood flow distribution of the intestinal wall from the last branch of the vasa recta of the anastomotic site was clearly visualized and proved useful in choosing the extent of intestinal resection. Lap-IGFI changed the surgical plan of the extensive intestinal resection in 16.7 %. CONCLUSIONS: Lap-IGFI can noninvasively provide detailed lymph and blood flow information and is a useful device to aid in the accurate identification of individual patients' lymph drainage. This helps dictate adequate lymphadenectomy and the extent of intestinal resection in Lap-CRC surgery.

Variants in CUL4B are associated with cerebral malformations.

Variants in cullin 4B (CUL4B) are a known cause of syndromic X-linked intellectual disability. Here, we describe an additional 25 patients from 11 families with variants in CUL4B. We identified nine different novel variants in these families and confirmed the pathogenicity of all nontruncating variants. Neuroimaging data, available for 15 patients, showed the presence of cerebral malformations in ten patients. The cerebral anomalies comprised malformations of cortical development (MCD), ventriculomegaly, and diminished white matter volume. The phenotypic heterogeneity of the cerebral malformations might result from the involvement of CUL-4B in various cellular pathways essential for normal brain development. Accordingly, we show that CUL-4B interacts with WDR62, a protein in which variants were previously identified in patients with microcephaly and a wide range of MCD. This interaction might contribute to the development of cerebral malformations in patients with variants in CUL4B.

Laparoscopic surgery after endoscopic resection for rectal cancer and neuroendocrine tumors.

BACKGROUND: Endoscopic resection (ER) of tumors causes inflammation, edema, fibrosis, and adhesions in the surrounding tissue. However, little is known about the effect of ER on subsequent laparoscopic surgery for rectal tumors. The objective of this retrospective study was to analyze the effect of ER on subsequent laparoscopic surgery for rectal tumors. METHODS: Twenty-eight patients underwent laparoscopic surgery for rectal adenocarcinoma with submucosal invasion or a rectal neuroendocrine tumor at our hospital between January 2005 and December 2012. A group of 14 patients who underwent laparoscopic surgery with previous ER was compared to a group of 14 patients who underwent laparoscopic surgery without previous ER. RESULTS: Though most fibrosis involved the submucosa after polypectomy and endoscopic mucosal resection, fibrosis after endoscopic submucosal dissection involved the muscularis propria in two patients, and the subserosa in one patient. There were no statistically significant differences in clinical outcomes between the groups. CONCLUSION: Laparoscopic surgery after ER for rectal tumors is safe and feasible. Laparoscopic surgery is the reasonable first-choice for radical treatment of rectal tumors after ER.

Exfoliated Tumor Cells in Intraluminal Lavage Samples after Colorectal Endoscopic Submucosal Dissection: A Pilot Study.

Endoscopic submucosal dissection involves dissecting manipulation performed with tumors in an exposed condition for a long period of time. Thus, there is a risk for implantation of tumor cells. The objectives of this study were to examine exfoliated tumor cells after colorectal endoscopic submucosal dissection and to elucidate the effectiveness of intraluminal lavage to remove these cells. The subjects were 8 patients who had undergone colorectal endoscopic submucosal dissection at our hospital between September and December 2012. A retrospective study was conducted on the cytological findings of intraluminal lavage samples in these patients. Seven of the 8 patients (88%) had exfoliated tumor cells in the lavage samples at the beginning of lavage. Only 3 patients (3 8%) had exfoliated tumor cells after lavage with 300 ml of water. A large number of tumor cells were thought to have exfoliated into the intestinal lumen after endoscopic submucosal dissection. Sufficient intraluminal lavage after colorectal endoscopic submucosal dissection is necessary to remove exfoliated tumor cells.

Prophylactic laparoscopic lateral pelvic lymph node dissection for lower rectal cancer: remarking on the vesicohypogastric fascia.

OBJECTIVE: To introduce the prophylactic laparoscopic lateral pelvic lymph node dissection performing by remarking the vesicohypogastric fascia following total mesorectal excision for patients with advanced lower rectal cancer without radiological evidence of lymph node involvement. SURGICAL METHOD: We set 5 ports for conventional laparoscopic rectal surgery. During the prophylactic laparoscopic lateral pelvic lymph node dissection, we retrieved the lymph nodes from the internal iliac area and obturator area. We recognized the pelvic nerve plexus, vesicohypogastric fascia (including internal iliac vessels), and parietal fascia (psoas muscle fascia, pubic bone and internal obturator muscle fascia) as the dissection borders from internal to external. Of note, the vesicohypogastric fascia can be recognized under magnified clear vision, and can be preserved by precise dissection, resulting in reduced hemorrhage from the internal iliac vessels and complications such as urinary dysfunction. CONCLUSION: Prophylactic laparoscopic lateral pelvic lymph node dissection after remarking on the vesicohypogastric fascia may contribute to a less invasive surgery compared with conventional laparoscopic lateral pelvic lymph node dissection.

[Four resections of metachronous liver metastases and lateral lymph node metastases of a rectal carcinoid tumor - a case report].

The authors present a case of rectal carcinoid tumor with lateral lymph node metastases and liver metastases that was successfully treated by 4 resections. A 70-year-old man was diagnosed with a rectal carcinoid tumor (20 mm in diameter) with submucosal (SM) invasion. Radical resection was performed at 25 months, 38 months, and 57 months, when abdominal computed tomography (CT) revealed metachronous liver metastases of the rectal carcinoid tumor. At 50 months, metachronous lateral lymph node metastases were also revealed. Three hepatectomies and a laparoscopic lateral lymph node dissection were performed. The patient is currently free of disease at 25 months after the last intervention.

Mucinous adenocarcinoma associated with a chronic perianal fistula - a review of cases from a single institution.

PURPOSE: The purpose of this study was to evaluate the clinicopathological features of mucinous adenocarcinoma associated with perianal fistulas (MAF), to assess the importance of preoperative MRI analysis, and to determine the optimal surgery. METHODS: We performed a retrospective analysis of the data from seven patients with MAF treated at our hospital between 2000 and 2013, and herein discuss the importance of preoperative magnetic resonance imaging (MRI) and of radical surgery. RESULTS: The male to female ratio was 5:2, and the mean age of the patients was 63 years old (28-70). The median duration of chronic fistulation was 16 years (5-40). The tumor extension was classified as II+III+IV in five patients and as II+III in 2 patients according to the Sumikoshi classification, as determned by pelvic MRI. The performed surgeries were 3 abdominoperineal resections with sacral resection and 4 pelvic exenterations with sacral resection. Two local recurrences developed in patients with R1 resection, and 1 distant metastasis occurred in 1 patient with R0 resection. CONCLUSION: For patients with MAF, a curative surgical resection is the only definitive treatment that can be expected to provide a good prognosis. The application of the Sumikoshi classification using MRI may provide a precise assessment of the extension of MAF, which can allow the appropriate surgery to be selected for the patients with MAF.

VprBP (DCAF1): a promiscuous substrate recognition subunit that incorporates into both RING-family CRL4 and HECT-family EDD/UBR5 E3 ubiquitin ligases.

The terminal step in the ubiquitin modification system relies on an E3 ubiquitin ligase to facilitate transfer of ubiquitin to a protein substrate. The substrate recognition and ubiquitin transfer activities of the E3 ligase may be mediated by a single polypeptide or may rely on separate subunits. The latter organization is particularly prevalent among members of largest class of E3 ligases, the RING family, although examples of this type of arrangement have also been reported among members of the smaller HECT family of E3 ligases. This review describes recent discoveries that reveal the surprising and distinctive ability of VprBP (DCAF1) to serve as a substrate recognition subunit for a member of both major classes of E3 ligase, the RING-type CRL4 ligase and the HECT-type EDD/UBR5 ligase. The cellular processes normally regulated by VprBP-associated E3 ligases, and their targeting and subversion by viral accessory proteins are also discussed. Taken together, these studies provide important insights and raise interesting new questions regarding the mechanisms that regulate or subvert VprBP function in the context of both the CRL4 and EDD/UBR5 E3 ligases.