Understanding organizational perspectives from clinical research stakeholders involved in recruitment for biopharmaceutical-sponsored clinical trials in the United States: Recommendations for organizational initiatives to improve access and inclusivity in clinical research

Background: Equitable representation of racially and ethnically diverse subpopulations in clinical trials continues to be a problem, and trial participants do not always reflect the demographics of the population that the investigational product will be used to treat. The imperativeness of equitable representation of clinically relevant populations in clinical trials has implications for improving health outcomes, increasing knowledge about the safety and efficacy of new treatments across a wider population, and broadening access to innovative treatment options offered in clinical trials. Methods: The purpose of this study was to understand organizational elements that are involved in the active implementation of racially and ethnically diverse inclusive recruitment practices for biopharmaceutical-funded trials in the United States. Semi-structured, in-depth interviews were used in this qualitative study. The interview guide was designed to explore the perceptions, practices and experiences of 15 clinical research site professionals related to recruiting diverse trial participants. Data analysis utilized an inductive coding process. Results: Five themes were identified pertaining to the actual implementation of inclusive recruitment practices that provided explanations for organizational components: 1) provision of culturally appropriate, general disease and clinical trial education 2) organizational structure tailored for diverse recruitment 3) strong sense of mission related to improving healthcare through clinical research 4) culture of inclusion 5) inclusive recruitment practices evolving based on learning. Conclusion: The findings from this study offer insight into improving access to clinical trials by focusing on organizational change initiatives

Inhibiting the oncogenic mir-221 by microRNA sponge: Toward microRNA-based therapeutics for hepatocellular carcinoma

Aim: We evaluated the capability of "microRNA sponges" in sequestering and inhibiting the over-expressed miR-221 in HCC cell lines. Background: Advanced hepatocellular carcinoma (HCC) is a serious public health problem, with no effective cure at present. It has been demonstrated that the deregulation of microRNAs expression contributes to tumorigenesis. In HCC, miR-221 was shown to be up-regulated in more than 70% of the cases and was associated with higher tumor stage, metastasis and a shorter time to recurrence after surgery, suggesting an important pathogenic role. A tumor promoting function of miR-221 was proved in a transgenic mouse model, which was predisposed to the development of liver cancers. These findings suggested that miR-221 could represent a potential target for anti-tumor approaches. Material and Methods: Novel adeno and adeno-associated viral vectors (AAVs) were developed: they were genetically modified to drive the expression of multiple binding sites for miR-221, the "miR-221 sponge", which was designed to sequester miR-221 cellular molecules. Results: Analysis of viral vectors activity in HCC cells revealed their capability to reduce miR-221 endogenous levels, which was accompanied by the increase in CDKN1B/p27 protein, a known target of miR-221. An increase in apoptosis was also measured in Hep3B cells after infection with any of the two viral vectors in comparison with control vectors, with stronger effects induced by adenovirus compared to AAV vectors. Conclusion: The depletion of oncogenic microRNAs represents a potential anti-cancer approach that needs to be tested for safety and efficacy. Here, we describe the development of novel "miR-221 sponge" vectors, which can reduce miR-221 activity in vitro and may be used for in vivo delivery

Erratum: miR-199a-3p increases the anti-tumor activity of palbociclib in liver cancer models (Molecular Therapy - Nucleic Acids (2022) 29 (538–549), (S2162253122001846), (10.1016/j.omtn.2022.07.015))

: [This corrects the article DOI: 10.1016/j.omtn.2022.07.015.]

TCL1 transgenic mouse model as a tool for the study of therapeutic targets and microenvironment in human B-cell chronic lymphocytic leukemia

Chronic lymphocytic leukemia (CLL) is a B-cell malignancy with a mature phenotype. In spite of its relatively indolent nature, no radical cure is as yet available. CLL is not associated with either a unique cytogenetic or a molecular defect, which might have been a potential therapeutic target. Instead, several factors are involved in disease development, such as environmental signals which interact with genetic abnormalities to promote survival, proliferation and an immune surveillance escape. Among these, PI3-Kinase signal pathway alterations are nowadays considered to be clearly important. The TCL1 gene, an AKT co-activator, is the cause of a mature T-cell leukemia, as well as being highly expressed in all B-CLL. A TCL1 transgenic mouse which reproduces leukemia with a distinct immunophenotype and similar to the course of the human B-CLL was developed several years ago and is widely used by many groups. This is a review of the CLL biology arising from work of many independent investigators who have used TCL1 transgenic mouse model focusing on pathogenetic, microenviroment and therapeutic targets

Mutated beta-catenin evades a microRNA-dependent regulatory loop

hsa-mir-483 is located within intron 2 of the IGF2 gene. We have previously shown oncogenic features of miR-483-3p through cooperation with IGF2 or by independently targeting the proapoptotic gene BBC3/PUMA. Here we demonstrate that expression of miR-483 can be induced independently of IGF2 by the oncoprotein β-catenin through an interaction with the basic helix-loop-helix protein upstream stimulatory transcription factor 1. We also show that β-catenin itself is a target of miR-483-3p, triggering a negative regulatory loop that becomes ineffective in cells harboring an activating mutation of β-catenin. These results provide insights into the complex regulation of the IGF2/miR-483 locus, revealing players in the β-catenin pathway

Anti-Tumor Activity of a miR-199-dependent Oncolytic Adenovirus

The down-regulation of miR-199 occurs in nearly all primary hepatocellular carcinomas (HCCs) and HCC cell lines in comparison with normal liver. We exploited this miR-199 differential expression to develop a conditionally replication-competent oncolytic adenovirus, Ad-199T, and achieve tumor-specific viral expression and replication. To this aim, we introduced four copies of miR-199 target sites within the 3’UTR of E1A gene, essential for viral replication. As consequence, E1A expression from Ad-199T virus was tightly regulated both at RNA and protein levels in HCC derived cell lines, and replication controlled by the level of miR-199 expression. Various approaches were used to asses in vivo properties of Ad-199T. Ad-199T replication was inhibited in normal, miR-199 positive, liver parenchyma, thus resulting in reduced hepatotoxicity. Conversely, the intrahepatic delivery of Ad-199T in newborn mice led to virus replication and fast removal of implanted HepG2 liver cancer cells. The ability of Ad-199T to control tumor growth was also shown in a subcutaneous xenograft model in nude mice and in HCCs arising in immune-competent mice. In summary, we developed a novel oncolytic adenovirus, Ad-199T, which could demonstrate a therapeutic potential against liver cancer without causing significant hepatotoxicity

Liver tumorigenicity promoted by microRNA-221 in a mouse transgenic model

MicroRNA-221 (miR-221) is one of the most frequently and consistently up-regulated microRNAs (miRNAs) in human cancer. It has been hypothesized that miR-221 may act as a tumor promoter. To demonstrate this, we developed a transgenic (TG) mouse model that exhibits an inappropriate overexpression of miR-221 in the liver. Immunoblotting and immunostaining confirmed a concomitant down-regulation of miR-221 target proteins. This TG model is characterized by the emergence of spontaneous nodular liver lesions in approximately 50% of male mice and by a strong acceleration of tumor development in 100% of mice treated with diethylnitrosamine. Similarly to human hepatocellular carcinoma, tumors are characterized by a further increase in miR-221 expression and a concomitant inhibition of its target protein-coding genes (i.e., cyclin-dependent kinase inhibitor [Cdkn]1b/p27, Cdkn1c/p57, and B-cell lymphoma 2-modifying factor). To validate the tumor-promoting effect of miR-221, we showed that in vivo delivery of anti-miR-221 oligonucleotides leads to a significant reduction of the number and size of tumor nodules. CONCLUSIONS: This study not only establishes that miR-221 can promote liver tumorigenicity, but it also establishes a valuable animal model to perform preclinical investigations for the use of anti-miRNA approaches aimed at liver cancer therapy

Mutated beta-catenin evades a microRNA-dependent regulatory loop.

hsa-mir-483 is located within intron 2 of the IGF2 gene. We have previously shown oncogenic features of miR-483-3p through cooperation with IGF2 or by independently targeting the proapoptotic gene BBC3/PUMA. Here we demonstrate that expression of miR-483 can be induced independently of IGF2 by the oncoprotein β-catenin through an interaction with the basic helix-loop-helix protein upstream stimulatory transcription factor 1. We also show that β-catenin itself is a target of miR-483-3p, triggering a negative regulatory loop that becomes ineffective in cells harboring an activating mutation of β-catenin. These results provide insights into the complex regulation of the IGF2/miR-483 locus, revealing players in the β-catenin pathway

Signal transducer and activator of transcription (STAT)-3 regulates microRNA gene expression in chronic lymphocytic leukemia cells

Backgrounds: Approximately 1,000 microRNAs (miRs) are present in the human genome; however, little is known about the regulation of miR transcription. Because miR levels are deregulated in chronic lymphocytic leukemia (CLL) and signal transducer and activator of transcription (STAT)-3 is constitutively activated in CLL, we sought to determine whether STAT3 affects the transcription of miR genes in CLL cells.Methods: We used publically available data from the ENCODE project to identify putative STAT3 binding sites in the promoters of miR genes. Then we transfected CLL cells with STAT3-shRNA or with an empty vector, and to determine which miRs are differentially expressed, we used a miR microarray approach followed by validation of the microarray results for 6 miRs using quantitative real-time polymerase chain reaction (qRT-PCR).Results: We identified putative STAT3 binding sites in 160 promoter regions of 200 miRs, including miR-21, miR-29, and miR-155, whose levels have been reported to be upregulated in CLL. Levels of 72 miRs were downregulated (n = 63) or upregulated (n = 9). qRT-PCR confirmed the array data in 5 of 6 miRs.Conclusions: The presence of activated STAT3 has a profound effect on miR expression in CLL cells. © 2013 Rozovski et al.; licensee BioMed Central Ltd