Search Results (14)

NUT carcinoma (NC) is a rare exceptionally aggressive malignancy, defined by NUTM1 gene translocations, most commonly generating a BRD4::NUTM1 fusion that results in a poor prognosis and limited therapeutic options. Oncolytic virotherapy has emerged as a promising strategy for NC, and the dual bromodomain and extra-terminal domain (BET) and p300/CBP inhibitor NEO2734 has demonstrated potent antiproliferative activity. To investigate multimodal therapeutic approaches that combine epigenetic modulation with immunogenic and cytotoxic effects of oncolytic viruses (OVs), we evaluated two recombinant OVs, including the herpes simplex virus talimogene laherparepvec (T-VEC) and a measles vaccine virus (MeV-GFP), in combination with NEO2734 in four distinct NC cell lines. Viability assays revealed enhanced tumor cell reduction with all combinations, including synergistic effects with T-VEC combinations. Cell cycle analysis showed G1 arrest with NEO2734 alone, whereas its combination with T-VEC resulted in S-phase broadening and reduced G2-phase populations, consistent with replicative stress and increased cytotoxicity. Evaluation of immunogenic cell death (ICD) markers displayed elevated ATP and HMGB1 levels and increased surface calreticulin with T-VEC and NEO2734 combinations. Overall, these findings indicate that combining OVs with BET/p300 inhibitors elicits potent antitumor responses, supports synergistic interactions and immunogenicity, and warrants further investigation in multimodal therapeutic strategies for NC. Full article

Gene fusions involving NUTM1 have been increasingly recognized in hematologic malignancies, though their role in acute myeloid leukemia (AML) remains poorly understood. We retrospectively analyzed 565 unique AML patients with reported fusion results who underwent comprehensive next-generation sequencing (NGS) between March 2022 and December 2023. Among them, three novel in-frame NUTM1 fusion transcripts, LARP1::NUTM1, ARHGAP15::NUTM1, and GABPB1::NUTM1, were identified in three relapsed or refractory AML cases, all with monocytic differentiation. Ancillary studies included flow cytometry, cytogenetics, FISH, and comprehensive mutational profiling. All three patients eventually relapsed and succumbed to their disease, despite initial responses in one case. Each case also harbored co-occurring mutations associated with adverse prognosis, such as BCOR, ASXL1, and RUNX1. These findings suggest NUTM1 fusions in AML could represent a distinct molecular subset with potentially poor prognosis, warranting further functional and clinical investigation to clarify their biological and therapeutic significance. Full article

Leishmaniasis and Chagas disease, caused by Leishmania spp. and Trypanosoma cruzi, are neglected tropical diseases with significant global health burden, particularly in resource-limited regions. Despite their impact, diagnosis and treatment remain challenging due to limited diagnostic tools and the toxicity of available therapies. Our objective is to propose the incorporation of markers for the diagnosis of leishmaniasis and Chagas disease using ncRNA. This narrative review evaluates studies published between 2010 and 2024 (PubMed, Scopus, Google Scholar) using the SANRA scale to assess the potential of non-coding RNAs (ncRNAs) as biomarkers for these infections. Both parasites release small RNAs via extracellular vesicles that modulate host–pathogen interactions and gene expression. Although RNA interference machinery is absent in T. cruzi and most Leishmania species, it persists in early-diverging lineages. In leishmaniasis, distinct miRNA expression profiles—including miR-155-5p, miR-5011-5p, miR-6785-5p, and miR-361-3p—demonstrate high diagnostic accuracy for detecting infection (AUC up to 1.0). Serum long ncRNAs such as MALAT1 and NUTM2A-AS1 show potential diagnostic value, though clinical validation remains pending. For Chagas disease, the available evidence on ncRNAs primarily addresses the diagnosis of clinical manifestations rather than initial infection. Host miRNAs, including miR-21, miR-145, miR-146a/b, and miR-19a-3p, correlate with cardiac involvement, immune dysregulation, and inflammation during chronic T. cruzi infection. Circulating miRNAs exhibit modest sensitivity (57–67%) and specificity (57–80%) for diagnosing chronic Chagas cardiomyopathy, indicating their utility in assessing disease progression and organ damage rather than detecting early infection. This review distinguishes between ncRNAs that diagnose infection and those that evaluate disease severity or organ involvement. Altered ncRNA expression profiles represent promising biomarkers for species differentiation, treatment monitoring, and assessing cardiac complications in Chagas disease, with broader diagnostic applications emerging for leishmaniasis. Full article

Background/Objectives: RA is a chronic autoimmune disease characterized by systemic inflammation and progressive joint damage. Plant-based dietary interventions have recently emerged as complementary anti-inflammatory therapy for active RA. However, the molecular anti-inflammatory mechanisms of plant-based dietary patterns in these patients are still poorly understood. Long non-coding RNAs (lncRNAs) have emerged as key regulators of inflammation in chronic diseases. Thus, this study aimed to evaluate the expression of lncRNAs and inflammatory genes in relation to the clinical response to following a plant-based dietary intervention in patients with active RA. Methods: A two-phase whole-blood gene expression analysis was conducted for patients with active RA before and after a 14-day plant-based dietary intervention. In the discovery phase, seven patients showing the greatest reduction in disease activity (DAS28-CRP) were selected, and the expression of 84 inflammatory genes and 84 lncRNAs was analyzed using RT² Profiler PCR Array platforms. In the validation phase, by adding 14 patients, we assessed 21 participants. Results: NUTM2A-AS1 was the only significantly overexpressed lncRNA in the discovery phase (p = 0.0435), while CCR3 was the only inflammatory gene showing significant expression change (p = 0.0156). In the validation phase, both NUTM2A-AS1 and CCR3 maintained the same pattern of overexpression, confirming their modulation after the 14-day plant-based dietary intervention (p = 0.0131 and p < 0.001, respectively). Conclusions: This study showed that a 14-day plant-based diet was sufficient to modify the inflammatory circuits in patients with active RA, suggesting a potential dietary-mediated inflammatory modulation mechanism involving NUTM2A-AS1 and CCR3. Further studies are required to validate new hypotheses on the biological significance of the regulation of these transcripts and its clinical implications in RA management. Full article

The majority of early-onset colorectal cancers (EOCRCs) are not substantiated by germline variants in the main CRC predisposition genes (the “DIGE” panel). To identify potentially novel EOCRC-specific predisposition genes, we analyzed 585 cancer pathway genes in an EOCRC patient cohort (n = 87, diagnosis ≤ 40 years, DIGE-), and compared their variant spectrum to the GnomAD cancer-free database. We identified high-impact variants (HVs) in 15 genes significantly over-represented in EOCRC. Among the 32 unrelated patients with a CRC family history (i.e., with a potentially dominant transmission pattern), 9 presented HVs in ten genes, four of which had a DNA repair function. We subsequently sequenced these 15 genes in a cohort of 82 late-onset CRCs (diagnosis ≥ 50 years, DIGE-) and found variants in 11 of these genes to be specific to EOCRC. We then screened these 11 genes in our patient database (n = 6482), which only contained 2% of EOCRCs (DIGE-), and identified two other EOCRC cases diagnosed after our cohort constitution, with HVs in RECQL4 and NUTM1. Altogether, we found that 37.5% and 18.75% of patients carrying heterozygous NUTM1 and RECQL4 HVs, respectively, in our database were diagnosed with EOCRC. Our work has identified a pattern of germline variants not previously associated with EOCRC. Full article

Nuclear Protein in Testis (NUT)-rearranged tumors comprise predominantly NUT carcinoma but also include certain lymphomas, leukemias, skin appendage tumors, and sarcomas. Although histologically diverse, all are genetically identified by oncogenic rearrangement in the NUTM1 gene. Many fusion partners occur, and NSD3 is NUT carcinoma’s third most common partner. Herein, we present a case of a 26-year-old man with an NSD3::NUTM1 fusion sarcoma. The patient presented at the age of 13 months with a scalp nodule. Over the next 24 years, he experienced five local recurrences and ultimately expired of a rapidly progressive recurrence. His treatment included surgical resections, radiation, and various chemotherapies. Deceptively, the clinical presentation and histopathology aligned with a malignant peripheral nerve sheath tumor, a diagnosis rendered at initial resection with concurrence by a national soft tissue tumor expert. The patient’s exceptionally long survival could be due to NSD3 as the fusion partner, aided by the initial small tumor size and young patient age. Thus, this case expands NUT fusion sarcomas’ histologic and immunohistochemical profile to include mimicking a malignant peripheral nerve sheath tumor (MPNST). Additionally, it indicates that the NSD3::NUTM1 fusion can drive sarcoma genesis. Full article

Thymic epithelial tumors (TET) are rare and large molecular studies are therefore difficult to perform. However, institutional case series and rare multi-institutional studies have identified a number of interesting molecular aberrations in TET, including gene fusions in a subset of these tumors. These gene fusions can aid in the diagnosis, shed light on the pathogenesis of a subset of tumors, and potentially may provide patients with the opportunity to undergo targeted therapy or participation in clinical trials. Gene fusions that have been identified in TET include MAML2 rearrangements in 50% to 56% of mucoepidermoid carcinomas (MAML2::CRTC1), 77% to 100% of metaplastic thymomas (YAP1::MAML2), and 6% of B2 and B3 thymomas (MAML2::KMT2A); NUTM1 rearrangements in NUT carcinomas (most commonly BRD4::NUTM1); EWSR1 rearrangement in hyalinizing clear cell carcinoma (EWSR1::ATF1); and NTRK rearrangement in a thymoma (EIF4B::NTRK3). This review focuses on TET in which these fusion genes have been identified, their morphologic, immunophenotypic, and clinical characteristics and potential clinical implications of the fusion genes. Larger, multi-institutional, global studies are needed to further elucidate the molecular characteristics of these rare but sometimes very aggressive tumors in order to optimize patient management, provide patients with the opportunity to undergo targeted therapy and participate in clinical trials, and to elucidate the pathogenesis of these tumors. Full article

Background: The expression of human germline genes is restricted to the germ cells of the gonads, which produce sperm and eggs. The germline genes involved in testis development and potentially activated in cancer cells are known as cancer-testis (CT) genes. These genes are potential therapeutic targets and biomarkers, as well as drivers of the oncogenic process. CT genes can be reactivated by treatment with drugs that demethylate DNA. The majority of the existing literature on CT gene activation focuses on X-chromosome-produced CT genes. We tested the hypothesis that epigenetic landscape changes, such as DNA methylation, can alter several CT gene expression profiles in cancer and germ cells. Methods: Colon cancer (CC) cell lines were treated with the DNA methyltransferase inhibitor (DNMTi) 5-aza-2’-deoxycytidine, or with the histone deacetylase inhibitor (HDACi) trichostatin A (TSA). The effects of these epigenetic treatments on the transcriptional activation of previously published CT genes (CTAG1A, SCP2D1, TKTL2, LYZL6, TEX33, and ACTRT1) and testis-specific genes (NUTM1, ASB17, ZSWIM2, ADAM2, and C10orf82) were investigated. Results: We found that treatment of CC cell lines with 5-aza-2’-deoxycytidine or TSA correlated with activation of X-encoded CT genes and non-X-encoded CT genes in somatic (non-germline) cells. Conclusion: These findings confirm that a subset of CT genes can be regulated by hypomethylating drugs and subsequently provide a potential therapeutic target for cancer. Full article

Cutaneous sweat gland tumors are a subset of adnexal neoplasms that derive or differentiate into the sweat apparatus. Their great diversity, rarity, and complex terminology make their pathological diagnosis challenging. Recent findings have revealed a wide spectrum of oncogenic drivers, several of which are of diagnostic interest for pathologists. Most of these molecular alterations are represented by gene fusions, which are shared with other homologous neoplasms occurring in organs containing exocrine glands, such as salivary and breast glands, which show similarities to the sweat apparatus. This review aims to provide a synthesis of the most recent immunohistochemical and molecular markers used for the diagnosis of sweat gland tumors and to highlight their relationship with similar tumors in other organs. It will cover adenoid cystic carcinoma (NFIB, MYB, and MYBL1 fusion), cutaneous mixed tumor (PLAG1 fusion), cylindroma and spiradenoma and their carcinomas thereof (NF-κB activation through CYLD inactivation or ALKP1 hotspot mutation), hidradenoma and hidradenocarcinoma (MAML2 fusion), myoepithelioma (EWSR1 and FUS fusion), poroma and porocarcinoma (YAP1, MAML2, and NUTM1 fusion), secretory carcinoma (ETV6, NTRK3 fusion), tubular adenoma and syringo-cystadenoma papilliferum (HRAS and BRAF activating mutations). Sweat gland tumors for which there are no known molecular abnormalities will also be briefly discussed, as well as potential future developments. Full article

Nuclear protein of testis (NUT), a protein product of the NUTM1 gene (located on the long arm of chromosome 15) with highly restricted physiologic expression in post-meiotic spermatids, is the oncogenic driver of a group of emerging neoplasms when fused with genes involved in transcription regulation. Although initially identified in a group of lethal midline carcinomas in which NUT forms fusion proteins with bromodomain proteins, NUTM1-rearrangement has since been identified in tumors at non-midline locations, with non-bromodomain partners and with varied morphology. The histologic features of these tumors have also expanded to include sarcoma, skin adnexal tumors, and hematologic malignancies that harbor various fusion partners and are associated with markedly different clinical courses varying from benign to malignant. Most of these tumors have nondescript primitive morphology and therefore should be routinely considered in any undifferentiated neoplasm. The diagnosis is facilitated by the immunohistochemical use of the monoclonal C52 antibody, fluorescence in situ hybridization (FISH), and, recently, RNA-sequencing. The pathogenesis is believed to be altered expression of oncogenes or tumor suppressor genes by NUT-mediated genome-wide histone modification. NUTM1-rearranged neoplasms respond poorly to classical chemotherapy and radiation therapy. Targeted therapies such as bromodomain and extraterminal domain inhibitor (BETi) therapy are being developed. This current review provides an update on NUTM1-rearranged neoplasms, focusing on the correlation between basic sciences and clinical aspects. Full article

Chromosomal rearrangements of the human KMT2A/MLL gene are associated with acute leukemias, especially in infants. KMT2A is rearranged with a big variety of partner genes and in multiple breakpoint locations. Detection of all types of KMT2A rearrangements is an essential part of acute leukemia initial diagnostics and follow-up, as it has a strong impact on the patients’ outcome. Due to their high heterogeneity, KMT2A rearrangements are most effectively uncovered by next-generation sequencing (NGS), which, however, requires a thorough prescreening by cytogenetics. Here, we aimed to characterize uncommon KMT2A rearrangements in childhood acute leukemia by conventional karyotyping, FISH, and targeted NGS on both DNA and RNA level with subsequent validation. As a result of this comprehensive approach, three novel KMT2A rearrangements were discovered: ins(X;11)(q26;q13q25)/KMT2A-BTK, t(10;11)(q22;q23.3)/KMT2A-NUTM2A, and inv(11)(q12.2q23.3)/KMT2A-PRPF19. These novel KMT2A-chimeric genes expand our knowledge of the mechanisms of KMT2A-associated leukemogenesis and allow tracing the dynamics of minimal residual disease in the given patients. Full article

The oncofetal protein insulin-like growth factor 2 mRNA-binding protein 3 (IGF2BP3) belongs to a family of RNA-binding proteins involved in localization, stability, and translational regulation of target RNAs. IGF2BP3 is used as a diagnostic and prognostic marker in several malignancies. Although the prognosis of pediatric B-cell acute lymphoblastic leukemia (B-ALL) has improved, a subgroup of patients exhibits high-risk features and suffer from disease recurrence. We sought to identify additional biomarkers to improve diagnostics, and we assessed expression of IGF2BP3 in a population-based pediatric cohort of B-ALL using a tissue microarray platform. The majority of pediatric B-ALL cases were positive for IGF2BP3 immunohistochemistry and were associated with an increased proliferative phenotype and activated STAT5 signaling pathway. Two large gene expression data sets were probed for the expression of IGF2BP3—the highest levels were seen among the B-cell lymphomas of a germinal center origin and well-established (KMT2A-rearranged and ETV6-RUNX1) and novel subtypes of B-ALL (e.g., NUTM1 and ETV6-RUNX1-like). A high mRNA for IGF2BP3 was associated with a proliferative “metagene” signature and a high expression of CDK6 in B-ALL. A low expression portended inferior survival in a high-risk cohort of pediatric B-ALL. Overall, our results show that IGF2BP3 shows subtype-specificity in expression and provides prognostic utility in high-risk B-ALL. Full article

NUT carcinoma (NC) is a type of aggressive cancer driven by chromosome translocations. Fusion genes between a DNA-binding protein, such as bromodomain and extraterminal domain (BET) proteins, and the testis-specific protein NUTM1 generated by these translocations drive the formation of NC. NC can develop in very young children without significant accumulation of somatic mutations, presenting a relatively clean model to study the genetic etiology of oncogenesis. However, after 20 years of research, a few challenging questions still remain for understanding the mechanism and developing therapeutics for NC. In this short review, we first briefly summarize the current knowledge regarding the molecular mechanism and targeted therapy development of NC. We then raise three challenging questions: (1) What is the cell of origin of NC? (2) How does the germline analogous epigenetic reprogramming process driven by the BET-NUTM1 fusion proteins cause NC? and (3) How will BET-NUTM1 targeted therapies be developed? We propose that with the unprecedented technological advancements in genome editing, animal models, stem cell biology, organoids, and chemical biology, we have unique opportunities to address these challenges. Full article

A series of 42 patient tumors diagnosed as endometrial stromal sarcoma (ESS) based on the morphology but negative for JAZF1 and/or YWHAE rearrangement in FISH was analyzed by RNA-sequencing. A chromosomal rearrangement was identified in 31 (74%) of the cases and a missense mutation in known oncogenes/tumor suppressor genes in 11 (26%). Cluster analyses on the expression profiles from this series together with a control cohort composed of five samples of low grade ESS harboring a JAZF1-SUZ12 fusion, one high grade ESS harboring a BCOR-ITD, two uterine tumors resembling ovarian sex cord tumors, two samples each of uterine leiomyoma and leiomyosarcomas and a series of BCOR-rearranged family of tumor (n = 8) indicated that tumors could be gather in three distinct subgroups: one mainly composed of BCOR-rearranged samples that contained seven ESS samples, one mainly composed of JAZF1-fused ESS (n = 15) and the last composed of various molecular subtypes (n = 19). These three subgroups display different gene signatures, different in silico cell cycle scores and very different clinical presentations, natural history and survival (log-rank test, p = 0.004). While YWHAE-NUTM2 fusion genes may be present in both high and low grade ESS, the high-grade presents with additional BCOR or BCORL1 gene mutations. RNAseq brings clinically relevant molecular classification, enabling the reclassification of diseases and the guidance of therapeutic strategy. Full article