To Ub or not to Ub: The epic dilemma of histones that regulate gene expression and epigenetic cross-talk.

A dynamic array of histone post-translational modifications (PTMs) regulate diverse cellular processes in the eukaryotic chromatin. Among them, histone ubiquitination is particularly complex as it alters nucleosome surface area fostering intricate cross-talk with other chromatin modifications. Ubiquitin signaling profoundly impacts DNA replication, repair, and transcription. Histones can undergo varied extent of ubiquitination such as mono, multi-mono, and polyubiquitination, which brings about distinct cellular fates. Mechanistic studies of the ubiquitin landscape in chromatin have unveiled a fascinating tapestry of events that orchestrate gene regulation. In this review, we summarize the key contributors involved in mediating different histone ubiquitination and deubiquitination events, and discuss their mechanism which impacts cell transcriptional identity and DNA damage response. We also focus on the proteins bearing epigenetic reader modules critical in discerning site-specific histone ubiquitination, pivotal for establishing complex epigenetic crosstalk. Moreover, we highlight the role of histone ubiquitination in different human diseases including neurodevelopmental disorders and cancer. Overall the review elucidates the intricate orchestration of histone ubiquitination impacting diverse cellular functions and disease pathogenesis, and provides insights into the current challenges of targeting them for therapeutic interventions.

Human testis-specific Y-encoded protein-like protein 5 is a histone H3/H4-specific chaperone that facilitates histone deposition in vitro.

DNA and core histones are hierarchically packaged into a complex organization called chromatin. The nucleosome assembly protein (NAP) family of histone chaperones is involved in the deposition of histone complexes H2A/H2B and H3/H4 onto DNA and prevents nonspecific aggregation of histones. Testis-specific Y-encoded protein (TSPY)-like protein 5 (TSPYL5) is a member of the TSPY-like protein family, which has been previously reported to interact with ubiquitin-specific protease USP7 and regulate cell proliferation and is thus implicated in various cancers, but its interaction with chromatin has not been investigated. In this study, we characterized the chromatin association of TSPYL5 and found that it preferentially binds histone H3/H4 via its C-terminal NAP-like domain both in vitro and ex vivo. We identified the critical residues involved in the TSPYL5-H3/H4 interaction and further quantified the binding affinity of TSPYL5 toward H3/H4 using biolayer interferometry. We then determined the binding stoichiometry of the TSPYL5-H3/H4 complex in vitro using a chemical cross-linking assay and size-exclusion chromatography coupled with multiangle laser light scattering. Our results indicate that a TSPYL5 dimer binds to either two histone H3/H4 dimers or a single tetramer. We further demonstrated that TSPYL5 has a specific affinity toward longer DNA fragments and that the same histone-binding residues are also critically involved in its DNA binding. Finally, employing histone deposition and supercoiling assays, we confirmed that TSPYL5 is a histone chaperone responsible for histone H3/H4 deposition and nucleosome assembly. We conclude that TSPYL5 is likely a new member of the NAP histone chaperone family.

Molecular characterization of substrate-induced ubiquitin transfer by UBR7-PHD finger, a newly identified histone H2BK120 ubiquitin ligase.

Monoubiquitination of histone H2B at lysine 120 plays a vital role in active transcription and DNA damage response pathways. Ubiquitin protein ligase E3 component N-recognin 7 (UBR7) has been recently identified as an H2BK120 monoubiquitin ligase. However, the molecular details of its ubiquitin transfer mechanism are not well understood. Here, we report that the plant homeodomain (PHD) finger of UBR7 is essential for its association with E2 UbcH6 and consequent ubiquitin transfer to its substrate histone H2B. We also identified the critical region of UbcH6 involved in this function and shown that the residues stretching from 114 to 125 of histone H2B C-terminal tail are sufficient for UBR7/UbcH6-mediated ubiquitin transfer. We also employed antibody-independent mass spectrometry to confirm UBR7-mediated ubiquitination of the H2B C-terminal tail. We demonstrated that the PHD finger of UBR7 forms a dimer and this dimerization is essential for ubiquitination of histone H2B. We mapped the critical residues involved in the dimerization and mutation of these residues that abrogate E3 ligase activity and are associated with cancer. Furthermore, we compared the mode of ubiquitin discharge from UbcH6 mediated by UBR7 and RING finger protein 20 (RNF20) through a thioester hydrolysis assay. Interestingly, binding of substrate H2B to UBR7 induces a conformational change in the PHD finger, which triggers ubiquitin transfer from UbcH6. However, the RNF20 RING finger alone is sufficient to promote the release of ubiquitin from UbcH6. Overall, the mechanism of ubiquitin transfer by the newly identified E3 ubiquitin ligase UBR7 is markedly different from that of RNF20.

Atypical plant homeodomain of UBR7 functions as an H2BK120Ub ligase and breast tumor suppressor.

The roles of Plant Homeodomain (PHD) fingers in catalysis of histone modifications are unknown. We demonstrated that the PHD finger of Ubiquitin Protein Ligase E3 Component N-Recognin7 (UBR7) harbors E3 ubiquitin ligase activity toward monoubiquitination of histone H2B at lysine120 (H2BK120Ub). Purified PHD finger or full-length UBR7 monoubiquitinated H2BK120 in vitro, and loss of UBR7 drastically reduced H2BK120Ub genome-wide binding sites in MCF10A cells. Low UBR7 expression was correlated with occurrence of triple-negative breast cancer and metastatic tumors. Consistently, UBR7 knockdown enhanced the invasiveness, induced epithelial-to-mesenchymal transition and promoted metastasis. Conversely, ectopic expression of UBR7 restored these cellular phenotypes and reduced tumor growth. Mechanistically, UBR7 loss reduced H2BK120Ub levels on cell adhesion genes, including CDH4, and upregulated the Wnt/ß-Catenin signaling pathway. CDH4 overexpression could partially revert UBR7-dependent cellular phenotypes. Collectively, our results established UBR7 as a histone H2B monoubiquitin ligase that suppresses tumorigenesis and metastasis of triple-negative breast cancer.

A prospective and randomized study of radiotherapy, sequential chemotherapy radiotherapy and concomitant chemotherapy-radiotherapy in unresectable non small cell carcinoma of the lung.

PURPOSE: Treatment of advanced Non small cell lung cancer (NSCLC) often produces dismal results. Combination of available treatment modalities has reportedly improved the outcome. A prospectively randomized trial was conducted, comparing combined treatment modalities versus radiotherapy alone, in treatment of unresectable NSCLC. MATERIALS AND METHODS: A total of 103 patients were randomized to three groups. In group 'A', 32 patients received radiotherapy alone (6500 cGy/30 fraction). In group 'B', 35 patients received neoadjuvant chemotherapy (Cisplatin 80 mg/m2 on day 1 and Etoposide 100 mg/m day 1-3 intravenously q3 weeks for 3 cycles), followed by radiotherapy (6000 cGy/30 fractions) and 3 more cycles of Chemotherapy, with the same regimen. In group 'C', 36 patients received radiotherapy (5000 cGy/25 fractions) with concurrent chemotherapy (cisplatin 20 mg/m2 + Etoposide 75 mg/m2 intravenously on day 1-5 and day 22-26), followed by 2 more cycles of chemotherapy, q3 weeks with the same regimen. RESULTS: Initial treatment responses were significantly higher in group 'B' (P < 0.05) and 'C' (P < 0.03), compared to group 'A'. Follow-up observations showed, that addition of chemotherapy brought down distant metastasis's from 62.5% (group 'A') to 48.6% (group 'B') and 44.4% (group 'C'). The median time to tumour progression also improved from 16 months (Group 'A') to 21 months (Group 'B' and 'C'). But 2 year follow up did not show any survival benefit. Acute toxicities were more frequent in group 'B' and 'C', but were manageable. CONCLUSION: Addition of chemotherapy with radiation in unresectable NSCLC improves response rates, time to tumour progression and disease free survival, though the same effect is not translated in overall survival.