Recurrent chromosomal translocations in sarcomas create a megacomplex that mislocalizes NuA4/TIP60 to Polycomb target loci.

Chromosomal translocations frequently promote carcinogenesis by producing gain-of-function fusion proteins. Recent studies have identified highly recurrent chromosomal translocations in patients with endometrial stromal sarcomas (ESSs) and ossifying fibromyxoid tumors (OFMTs), leading to an in-frame fusion of PHF1 (PCL1) to six different subunits of the NuA4/TIP60 complex. While NuA4/TIP60 is a coactivator that acetylates chromatin and loads the H2A.Z histone variant, PHF1 is part of the Polycomb repressive complex 2 (PRC2) linked to transcriptional repression of key developmental genes through methylation of histone H3 on lysine 27. In this study, we characterize the fusion protein produced by the EPC1-PHF1 translocation. The chimeric protein assembles a megacomplex harboring both NuA4/TIP60 and PRC2 activities and leads to mislocalization of chromatin marks in the genome, in particular over an entire topologically associating domain including part of the HOXD cluster. This is linked to aberrant gene expression-most notably increased expression of PRC2 target genes. Furthermore, we show that JAZF1-implicated with a PRC2 component in the most frequent translocation in ESSs, JAZF1-SUZ12-is a potent transcription activator that physically associates with NuA4/TIP60, its fusion creating outcomes similar to those of EPC1-PHF1 Importantly, the specific increased expression of PRC2 targets/HOX genes was also confirmed with ESS patient samples. Altogether, these results indicate that most chromosomal translocations linked to these sarcomas use the same molecular oncogenic mechanism through a physical merge of NuA4/TIP60 and PRC2 complexes, leading to mislocalization of histone marks and aberrant Polycomb target gene expression.

An SHIV DNA/MVA rectal vaccination in macaques provides systemic and mucosal virus-specific responses and protection against AIDS.

We explored the use of a simian-human immunodeficiency virus (SHIV) DNA vaccine as an effective mucosal priming agent to stimulate a protective immune response for AIDS prevention. Rhesus macaques were vaccinated rectally with a DNA construct producing replication-defective SHIV particles, and boosted with either the same DNA construct or recombinant modified vaccinia virus Ankara (MVA) expressing SIV Gag, SIV Pol, and HIV Env (MVA-SHIV). Virus-specific mucosal and systemic humoral and cell-mediated immune responses could be stimulated by this approach but were present inconsistently among the vaccinated animals. Rectal vaccination with either SHIV DNA alone or SHIV DNA followed by MVA-SHIV induced SIV Gag/Pol- or HIV gp120-specific IgA in rectal secretions of four of seven animals. However, the gp120-specific rectal IgA antibody responses were not durable and had become undetectable in all but one animal shortly before rectal challenge with pathogenic SHIV 89.6P. Only the macaques primed with SHIV DNA and boosted with MVA-SHIV demonstrated SHIV-specific IgG in plasma. In addition, these animals developed more consistent antiviral cell-mediated responses and had better preservation of CD4 T cells following challenge with SHIV 89.6P. Our study demonstrates the utility of a rectal DNA/MVA vaccination protocol for the induction of diverse responses in different immunological compartments. In addition, the immunity achieved with this mucosal vaccination regimen is sufficient to delay progression to AIDS.