Uveal melanoma cell lines Mel270 and 92.1 exhibit a mesenchymal phenotype and sensitivity to the cytostatic effects of transforming growth factor beta in vitro.

Purpose: Uveal melanoma (UM) is a deadly cancer with limited therapeutic options. At advanced stages, UM cells metastasize almost exclusively into the liver, where targeting metastatic UM cells remain a clinical challenge. Transforming growth factor beta (TGF-ß) exhibits a functional duality in cancer, with one arm limiting tumor growth at an early stage and the second arm promoting metastasis at an advanced stage, notably by inducing an epithelial-to-mesenchymal transition. Thus, we hypothesized that targeting the TGF-ß pathway could be relevant in the treatment of metastatic UM. Methods: In this study, we first characterized the pseudoepithelial/mesenchymal phenotype of UM cell lines Mel270 and 92.1. We then treated the cell lines with TGF-ß to evaluate their responsiveness to the cytokine and to characterize the functional impact of TGF-ß on their cell viability. Results: The results demonstrated, first, that the UM cell lines exhibited a mesenchymal phenotype and responded to TGF-ß treatment in vitro and, second, that TGF-ß promoted a cytostatic effect on the UM cell lines. Conclusions: Our findings indicate that UM cells are sensitive to the two arms of TGF-ß signaling, which suggests that targeting the TGF-ß pathway could be challenging in UM and would require a precise selection of patients in which only the prometastatic arm of TGF-ß is activated.

Next-generation biological vector platforms for in vivo delivery of genome editing agents.

CRISPR-based genome editing holds promise for addressing genetic disease, infectious disease, and cancer and has rapidly advanced from primary research to clinical trials in recent years. However, the lack of safe and potent in vivo delivery methods for CRISPR components has limited most ongoing clinical trials to ex vivo gene therapy. Effective CRISPR in vivo genome editing necessitates an effective vehicle ensuring target cell transduction while minimizing off-target effects, toxicity, and immune reactions. In this review, we examine promising biological-derived platforms to deliver DNA editing agents in vivo and the engineering thereof, encompassing potent viral-based vehicles, flexible protein nanocages, and mammalian-derived particles.

TGFß-induced circLTBP2 predicts a poor prognosis in intrahepatic cholangiocarcinoma and mediates gemcitabine resistance by sponging miR-338-3p.

Background & Aims: Intrahepatic cholangiocarcinoma (iCCA) is a deadly cancer worldwide with an increasing incidence and limited therapeutic options. Therefore, there is an urgent need to open the field to new concepts for identifying clinically relevant therapeutic targets and biomarkers. Here, we explored the role and the clinical relevance of circular RNA (circRNA) circLTBP2 in iCCA. Methods: Transforming growth factor ß (TGFß)-regulated circRNAs were identified by dedicated microarrays in human HuCC-T1 iCCA cell line, and their clinical relevance was evaluated in independent cohorts of patients. Gain and loss of function of circLTBP2 combined with functional tests was performed in vitro and in vivo in mice. RNA pulldown, microRNA sequencing, and RNA immunoprecipitation were performed to explore the sponging activity of circLTBP2. Results: CircLTBP2 (has_circ_0032603) was identified as a novel TGFß-induced circRNA in several cholangiocarcinoma cell lines. CircLTBP2 promotes tumour cell proliferation, migration, and resistance to gemcitabine-induced apoptosis in vitro and tumour growth in vivo. Mechanistically, circLTBP2 acts as a competitive RNA regulating notably the activity of the tumour suppressor microRNA miR-338-3p, leading to the overexpression of its pro-metastatic targets. The restoration of miR-338-3p levels in iCCA cells reversed the pro-tumourigenic effects driven by circLTBP2, including the resistance to gemcitabine-induced apoptosis. In addition, circLTBP2 expression predicted a reduced survival, as detected in not only tumour tissues but also serum extracellular vesicles isolated from patients with iCCA. Conclusions: CircLTBP2 is a novel effector of the pro-tumourigenic arm of TGFß and a clinically relevant biomarker easily detected from liquid biopsies in iCCA. Impact and implications: Intrahepatic cholangiocarcinoma (iCCA) is an aggressive cancer with limited therapeutic options. Opening the field to new concepts is urgently needed to improve the survival of patients. Here, we evaluated the role and the clinical relevance of circular RNA. We report that TGFß-induced circLTBP2 contributes to CCA carcinogenesis and may constitute a clinically relevant prognostic biomarker detected in liquid biopsies.

Functional Assessment of a New PBX1 Variant in a 46,XY Fetus with Severe Syndromic Difference of Sexual Development through CRISPR-Cas9 Gene Editing.

Sexual development is a complex process relying on numerous genes. Disruptions in some of these genes are known to cause differences of sexual development (DSDs). Advances in genome sequencing allowed the discovery of new genes implicated in sexual development, such as PBX1. We present here a fetus with a new PBX1 NM_002585.3: c.320G>A,p.(Arg107Gln) variant, presenting with severe DSD along with renal and lung malformations. Using CRISPR-Cas9 gene editing on HEK293T cells, we generated a KD cell line for PBX1. The KD cell line showed reduced proliferation and adhesion properties compared with HEK293T cells. HEK293T and KD cells were then transfected plasmids coding either PBX1 WT or PBX1-320G>A (mutant). WT or mutant PBX1 overexpression rescued cell proliferation in both cell lines. RNA-seq analyses showed less than 30 differentially expressed genes, in ectopic mutant-PBX1-expressing cells compared with WT-PBX1. Among them, U2AF1, encoding a splicing factor subunit, is an interesting candidate. Overall, mutant PBX1 seems to have modest effects compared with WT PBX1 in our model. However, the recurrence of PBX1 Arg107 substitution in patients with closely related phenotypes calls for its impact in human diseases. Further functional studies are needed to explore its effects on cellular metabolism.

Gene Editing Corrects In Vitro a G > A GLB1 Transition from a GM1 Gangliosidosis Patient.

Ganglioside-monosialic acid (GM1) gangliosidosis, a rare autosomal recessive disorder, is frequently caused by deleterious single nucleotide variants (SNVs) in GLB1 gene. These variants result in reduced ß-galactosidase (ß-gal) activity, leading to neurodegeneration associated with premature death. Currently, no effective therapy for GM1 gangliosidosis is available. Three ongoing clinical trials aim to deliver a functional copy of the GLB1 gene to stop disease progression. In this study, we show that 41% of GLB1 pathogenic SNVs can be replaced by adenine base editors (ABEs). Our results demonstrate that ABE efficiently corrects the pathogenic allele in patient-derived fibroblasts, restoring therapeutic levels of ß-gal activity. Off-target DNA analysis did not detect off-target editing activity in treated patient's cells, except a bystander edit without consequences on ß-gal activity based on 3D structure bioinformatics predictions. Altogether, our results suggest that gene editing might be an alternative strategy to cure GM1 gangliosidosis.

Non-canonical miRNA-RNA base-pairing impedes tumor suppressor activity of miR-16.

Uveal melanoma (UM), the most common primary intraocular tumor in adults, has been extensively characterized by omics technologies during the last 5 yr. Despite the discovery of gene signatures, the molecular actors driving cancer aggressiveness are not fully understood, and UM is still associated with very poor overall survival (OS) at the metastatic stage. By defining the miR-16 interactome, we revealed that miR-16 mainly interacts via non-canonical base-pairing to a subset of RNAs, promoting their expression levels. Consequently, the canonical miR-16 activity, involved in the RNA decay of oncogenes, such as <i>cyclin D3</i>, is impaired. This non-canonical base-pairing can explain both the derepression of miR-16 targets and the promotion of oncogene expression observed in patients with poor OS in two cohorts. miR-16 activity, assessment using our RNA signature, discriminates the patient's OS as effectively as current methods. To the best of our knowledge, this is the first time that a predictive signature has been composed of genes belonging to the same mechanism (miR-16) in UM. Altogether, our results strongly suggest that UM is a miR-16 disease.

The TALE never ends: A comprehensive overview of the role of PBX1, a TALE transcription factor, in human developmental defects.

PBX1 is a highly conserved atypical homeodomain transcription factor (TF) belonging to the TALE (three amino acid loop extension) family. Dimerized with other TALE proteins, it can interact with numerous partners and reach dozens of regulating sequences, suggesting its role as a pioneer factor. PBX1 is expressed throughout the embryonic stages (as early as the blastula stage) in vertebrates. In human, PBX1 germline variations are linked to syndromic renal anomalies (CAKUTHED). In this review, we summarized available data on PBX1 functions, PBX1-deficient animal models, and PBX1 germline variations in humans. Two types of genetic alterations were identified in PBX1 gene. PBX1 missense variations generate a severe phenotype including lung hypoplasia, cardiac malformations, and sexual development defects (DSDs). Conversely, truncating variants generate milder phenotypes (mainly cryptorchidism and deafness). We suggest that defects in PBX1 interactions with various partners, including proteins from the HOX (HOXA7, HOXA10, etc.), WNT (WNT9B, WNT3), and Polycomb (BMI1, EED) families are responsible for abnormal proliferation and differentiation of the embryonic mesenchyme. These alterations could explain most of the defects observed in humans. However, some phenotype variability (especially DSDs) remains poorly understood. Further studies are needed to explore the TALE family in greater depth.

Addressing sexuality and sexual health with migrants. Practice guidelines.

Sexual health is an integral part of overall health and should be discussed with all people who seek help. The Vaccination and Prevention working group of the French Infectious Diseases Society (SPILF) and the Migrant Commission of the French AIDS Society (SFLS) developed recommendations to address this issue with migrants presenting vulnerability factors. After defining sexual health and target migrants, practical recommendations were issued. Sexual health can be discussed simply with migrants or people with an immigrant background. Some migrants are exposed to sexual vulnerability due to their migration route, social isolation, administrative and housing insecurity, gender inequalities, and discrimination. Situations of sexual vulnerability, sexual violence, and female genital mutilation should be systematically identified and followed by appropriate care that respects the migrant's needs. Extended screening for HIV and sexually transmitted infections (STI) should be systematically offered as part of a "migrant health checkup" and completed, if necessary, with information on preventing tools for HIV, STIs, unwanted pregnancies, and sexual violence. In this population, it is important to check if vaccinations are up to date. Sexology and addiction counselling is sometimes useful. The specific needs of LGBTQIA+ people with an immigrant background should be taken into account.

Impaired antibody response to COVID-19 vaccination in advanced HIV infection.

OBJECTIVES: Coronavirus disease 2019 (COVID-19) vaccination is reportedly efficient in people with HIV (PWH) but vaccine trials included participants with normal CD4+ T-cell counts. We analyzed seroconversion rates and antibody titers following two-dose vaccination in PWH with impaired CD4+ T-cell counts. METHODS: We collected retrospective postvaccination SARS-COV-2 serology results available in a university hospital for PWH vaccinated between March and September, 2021 who were tested for antispike antibodies from 8 to 150 days following dose 2. Antibody titers were compared in PWH with CD4+ T-cell count less than 200 cells/µl, 200 < CD4+ T-cell counts < 500 cells/µl and CD4+ T-cell count greater than 500 cells/µl at vaccination. RESULTS: One hundred and five PWH were included: n = 54 in the CD4+ T-cell count less than 500 cells/µl group (n = 18 with CD4+ <200 cells/µl, n = 36 with 200 < CD4+ < 500 cells/µl) and 51 in the CD4+ T-cell count greater than 500 cells/µl group. They received two doses of BNT162b2 (75%), mRNA-1273 (8.5%), or ChAdOx1 nCoV-19 (16.5%). The median time from vaccine dose 2 to serology was consistent across all groups (73 days, interquartile range [29-97], P = 0.14). Seroconversion rates were 100% in the CD4+ T-cell count greater than 500 cells/µl group but 89% in participants with CD4+ T-cell counts less than 500 cells/µl (22 and 5.5% seronegative in the CD4+ T-cell counts <200 cells/µl and 200 < CD4+ < 500 cells/µl groups, respectively). Median antibody titers were 623.8 BAU/ml [262.2-2288] in the CD4+ greater than 500 cells/µl group versus 334.3 BAU/ml [69.9-933.9] in the CD4+ less than 500 cells/µl group (P = 0.003). They were lowest in the CD4+ less than 200 cells/µl group: 247.9 BAU/ml [5.88-434.9] (P = 0.0017) with only 44% achieving antibody titers above the putative protection threshold of 260 BAU/ml. CONCLUSION: PWH with CD4+ T-cell counts less than 500 cells/µl and notably less than 200 cells/µl had significantly lower seroconversion rates and antispike antibody titers compared with PWH with CD4+ T-cell counts greater than 500 cells/µl, warranting the consideration of targeted vaccine strategies in this fragile population.

Emerging roles of circular RNAs in liver cancer.

Hepatocellular carcinoma and cholangiocarcinoma are the most common primary liver tumours, whose incidence and associated mortality have increased over recent decades. Liver cancer is often diagnosed late when curative treatments are no longer an option. Characterising new molecular determinants of liver carcinogenesis is crucial for the development of innovative treatments and clinically relevant biomarkers. Recently, circular RNAs (circRNAs) emerged as promising regulatory molecules involved in cancer onset and progression. Mechanistically, circRNAs are mainly known for their ability to sponge and regulate the activity of microRNAs and RNA-binding proteins, although other functions are emerging (e.g. transcriptional and post-transcriptional regulation, protein scaffolding). In liver cancer, circRNAs have been shown to regulate tumour cell proliferation, migration, invasion and cell death resistance. Their roles in regulating angiogenesis, genome instability, immune surveillance and metabolic switching are emerging. Importantly, circRNAs are detected in body fluids. Due to their circular structure, circRNAs are often more stable than mRNAs or miRNAs and could therefore serve as promising biomarkers - quantifiable with high specificity and sensitivity through minimally invasive methods. This review focuses on the role and the clinical relevance of circRNAs in liver cancer, including the development of innovative biomarkers and therapeutic strategies.

CRISPR screens identify tumor-promoting genes conferring melanoma cell plasticity and resistance.

Most genetic alterations that drive melanoma development and resistance to targeted therapy have been uncovered. In contrast, and despite their increasingly recognized contribution, little is known about the non-genetic mechanisms that drive these processes. Here, we performed in vivo gain-of-function CRISPR screens and identified SMAD3, BIRC3, and SLC9A5 as key actors of BRAFi resistance. We show that their expression levels increase during acquisition of BRAFi resistance and remain high in persister cells and during relapse. The upregulation of the SMAD3 transcriptional activity (SMAD3-signature) promotes a mesenchymal-like phenotype and BRAFi resistance by acting as an upstream transcriptional regulator of potent BRAFi-resistance genes such as EGFR and AXL. This SMAD3-signature predicts resistance to both current melanoma therapies in different cohorts. Critically, chemical inhibition of SMAD3 may constitute amenable target for melanoma since it efficiently abrogates persister cells survival. Interestingly, decrease of SMAD3 activity can also be reached by inhibiting the Aryl hydrocarbon Receptor (AhR), another druggable transcription factor governing SMAD3 expression level. Our work highlights novel drug vulnerabilities that can be exploited to develop long-lasting antimelanoma therapies.

Detrimental activation of AhR pathway in cancer: an overview of therapeutic strategies.

Sustained transcriptional activation of the aryl hydrocarbon receptor (AhR) promotes tumour growth and impairs the immune defence, at least for cutaneous melanoma and glioma. AhR ligands are produced by the tumour microenvironment (TME) and by the tumour itself (intracrine). The recent identification of interleukin-4-induced-1 (IL4I1), a parallel pathway to indoleamine 2 3-dioxygenase 1 (IDO1)/ tryptophan 2,3-dioxygenase (TDO), and its ability to generate AhR ligands, confirms that a complete inhibition of AhR ligand production might be difficult to reach. Here, we have focused on recent discoveries explaining the large varieties of AhR ligands and the functional consequences in terms of cancer cell plasticity and consecutive therapy resistance. We also examined therapeutic strategies targeting the AhR signalling pathway and their possible adverse effects. Since the end of 2019, two phase I clinical trials have investigated the ability of the AhR antagonist to 'reset' the immune system and re-sensitize the cancer cells to therapies by preventing their dedifferentiation.