Sriram Aiyer scite author profile

The selection of chromosomal targets for retroviral integration varies markedly, tracking with the genus of the retrovirus, suggestive of targeting by binding to cellular factors. γ-Retroviral murine leukemia virus (MLV) DNA integration into the host genome is favored at transcription start sites, but the underlying mechanism for this preference is unknown. Here, we have identified bromodomain and extraterminal domain (BET) proteins (Brd2, -3, -4) as cellular-binding partners of MLV integrase. We show that purified recombinant Brd4(1-720) binds with high affinity to MLV integrase and stimulates correct concerted integration in vitro. JQ-1, a small molecule that selectively inhibits interactions of BET proteins with modified histone sites impaired MLV but not HIV-1 integration in infected cells. Comparison of the distribution of BET protein-binding sites analyzed using ChIP-Seq data and MLV-integration sites revealed significant positive correlations. Antagonism of BET proteins, via JQ-1 treatment or RNA interference, reduced MLV-integration frequencies at transcription start sites. These findings elucidate the importance of BET proteins for MLV integration efficiency and targeting and provide a route to developing safer MLV-based vectors for human gene therapy. (1-4). The selection of chromosomal targets for retroviral integration varies markedly, tracking with the genus of the retrovirus studied (5-7). For example, the γ-retroviruses favor integration near transcription start sites, whereas lentiviruses favor integration within transcription units. These observations have suggested that different cellularbinding partners of retroviral integrases are likely to be responsible for integration target-site selection. However, to date, only one example has been reported: lens epithelium-derived growth factor (LEDGF/p75), which functions as a bimodal tether that engages HIV-1 intasomes and navigates them to active genes (8-14). Cellular cofactors of other retroviral genera are currently unknown.The molecular mechanisms of γ-retroviral murine leukemia virus (MLV) integration are of particular significance because MLV-based vectors are used for human gene therapy. In clinical trials, the use of γ-retroviral vectors to correct primary immunodeficiencies has been curative, but adverse events have occurred associated with insertion of MLV-based vectors near protooncogenes (reviewed in refs. 15-18). The identification of cellular factors for γ-retroviruses may provide mechanistic clues to facilitate the development of safer gene-therapy vectors.In this report, we have identified the bromodomain and extraterminal domain (BET) proteins (Brd2, -3, -4) as the cellularbinding partners of MLV IN and demonstrate their significance for stimulating and targeting MLV integration at transcription start sites. (Table 1, Table S1, and Fig. S1). Of these, Brd4 and Brd3 were the top hits in NIH 3T3 and Sup-T1 cells, respectively. Differential pull-down levels of these proteins (Table 1) could be attributable to the varying expression le...

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Altering murine leukemia virus integration through disruption of the integrase and BET protein family interaction

Aiyer¹,

Swapna²,

Malani³

et al. 2014

142

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We report alterations to the murine leukemia virus (MLV) integrase (IN) protein that successfully result in decreasing its integration frequency at transcription start sites and CpG islands, thereby reducing the potential for insertional activation. The host bromo and extraterminal (BET) proteins Brd2, 3 and 4 interact with the MLV IN protein primarily through the BET protein ET domain. Using solution NMR, protein interaction studies, and next generation sequencing, we show that the C-terminal tail peptide region of MLV IN is important for the interaction with BET proteins and that disruption of this interaction through truncation mutations affects the global targeting profile of MLV vectors. The use of the unstructured tails of gammaretroviral INs to direct association with complexes at active promoters parallels that used by histones and RNA polymerase II. Viruses bearing MLV IN C-terminal truncations can provide new avenues to improve the safety profile of gammaretroviral vectors for human gene therapy.

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Viral DNA tethering domains complement replication-defective mutations in the p12 protein of MuLV Gag

Schneider¹,

Brzezinski²,

Aiyer³

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

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The p12 protein of murine leukemia virus (MuLV) group-specific antigen (Gag) is associated with the preintegration complex, and mutants of p12 (PM14) show defects in nuclear entry or retention. Here we show that p12 proteins engineered to encode peptide sequences derived from known viral tethering proteins can direct chromatin binding during the early phase of viral replication and rescue a lethal p12-PM14 mutant. Peptides studied included segments of Kaposi sarcoma herpesvirus latency-associated nuclear antigen (LANA) 1-23 , human papillomavirus 8 E2, and prototype foamy virus chromatin-binding sequences. Amino acid substitutions in Kaposi sarcoma herpesvirus LANA and prototype foamy virus chromatin-binding sequences that blocked nucleosome association failed to rescue MuLV p12-PM14. Rescue by a larger LANA peptide, LANA 1-32 , required second-site mutations that are predicted to reduce peptide binding affinity to chromosomes, suggesting that excessively high binding affinity interfered with Gag/p12 function. This is supported by confocal microscopy of chimeric p12-GFP fusion constructs showing the reverted proteins had weaker association to condensed mitotic chromosomes. Analysis of the integration-site selection of these chimeric viruses showed no significant change in integration profile compared with wild-type MuLV, suggesting release of the tethered p12 post mitosis, before viral integration. gammaretroviral vectors | retroviral integration | nuclear retention

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Bimodal high-affinity association of Brd4 with murine leukemia virus integrase and mononucleosomes

Larue

Plumb

Crowe

et al. 2014

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The importance of understanding the molecular mechanisms of murine leukemia virus (MLV) integration into host chromatin is highlighted by the development of MLV-based vectors for human gene-therapy. We have recently identified BET proteins (Brd2, 3 and 4) as the main cellular binding partners of MLV integrase (IN) and demonstrated their significance for effective MLV integration at transcription start sites. Here we show that recombinant Brd4, a representative of the three BET proteins, establishes complementary high-affinity interactions with MLV IN and mononucleosomes (MNs). Brd4(1–720) but not its N- or C-terminal fragments effectively stimulate MLV IN strand transfer activities in vitro. Mass spectrometry- and NMR-based approaches have enabled us to map key interacting interfaces between the C-terminal domain of BRD4 and the C-terminal tail of MLV IN. Additionally, the N-terminal fragment of Brd4 binds to both DNA and acetylated histone peptides, allowing it to bind tightly to MNs. Comparative analyses of the distributions of various histone marks along chromatin revealed significant positive correlations between H3- and H4-acetylated histones, BET protein-binding sites and MLV-integration sites. Our findings reveal a bimodal mechanism for BET protein-mediated MLV integration into select chromatin locations.

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Sriram Aiyer

BET proteins promote efficient murine leukemia virus integration at transcription start sites

Altering murine leukemia virus integration through disruption of the integrase and BET protein family interaction

Viral DNA tethering domains complement replication-defective mutations in the p12 protein of MuLV Gag

Bimodal high-affinity association of Brd4 with murine leukemia virus integrase and mononucleosomes

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