transgene expression
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Pharmaceutics ◽  
2021 ◽  
Vol 14 (1) ◽  
pp. 25
Author(s):  
Tony Le Le Gall ◽  
Mathieu Berchel ◽  
Lee Davies ◽  
Angélique Mottais ◽  
Rosy Ghanem ◽  
...  

Aerosol lung gene therapy using non-viral delivery systems represents a credible therapeutic strategy for chronic respiratory diseases, such as cystic fibrosis (CF). Progress in CF clinical setting using the lipidic formulation GL67A has demonstrated the relevance of such a strategy while emphasizing the need for more potent gene transfer agents. In recent years, many novel non-viral gene delivery vehicles were proposed as potential alternatives to GL67 cationic lipid. However, they were usually evaluated using procedures difficult or even impossible to implement in clinical practice. In this study, a clinically-relevant administration protocol via aerosol in murine lungs was used to conduct a comparative study with GL67A. Diverse lipidic compounds were used to prepare a series of formulations inspired by the composition of GL67A. While some of these formulations were ineffective at transfecting murine lungs, others demonstrated modest-to-very-efficient activities and a series of structure-activity relationships were unveiled. Lipidic aminoglycoside derivative-based formulations were found to be at least as efficient as GL67A following aerosol delivery of a luciferase-encoding plasmid DNA. A single aerosol treatment with one such formulation was found to mediate long-term lung transgene expression, exceeding half the animal’s lifetime. This study clearly supports the potential of aminoglycoside-based cationic lipids as potent GL67-alternative scaffolds for further enhanced aerosol non-viral lung gene therapy for diseases such as CF.


2021 ◽  
Author(s):  
Matias Ilmari Autio ◽  
Efthymios Motakis ◽  
Arnaud Perrin ◽  
Talal Bin Amin ◽  
Zenia Tiang ◽  
...  

Stable expression of transgenes is essential in both therapeutic and research applications. Traditionally, transgene integration has been accomplished via viral vectors in a semi-random fashion, but with inherent integration site biases linked to the type of virus used. The randomly integrated transgenes may undergo silencing and more concerningly, can also lead to dysregulation of endogenous genes. Gene dysregulation can lead to malignant transformation of cells and has unfortunately given rise to cases of leukaemia in gene therapy trials. Genomic safe harbour (GSH) loci have been proposed as safe sites for transgene integration. To date, a number of sites in the human genome have been used for directed integration; however none of these pass scrutiny as bona fide GSH. Here, we conducted a computational analysis to identify 25 putative GSH loci that reside in active chromosomal compartments. We validated stable transgene expression in three GSH sites in vitro using human embryonic stem cells (hESCs) and their differentiated progeny. Furthermore, for easy targeted transgene expression, we have engineered constitutive landing pad expression constructs into the three validated GSH in hESCs.


Author(s):  
David Goertsen ◽  
Nicholas C. Flytzanis ◽  
Nick Goeden ◽  
Miguel R. Chuapoco ◽  
Alexander Cummins ◽  
...  

2021 ◽  
Vol 4 (1) ◽  
Author(s):  
Jeongkwan Hong ◽  
Jae-Geun Lee ◽  
Kyung-Cheol Sohn ◽  
Kayoung Lee ◽  
Seoee Lee ◽  
...  

AbstractThough various transgene expression switches have been adopted in a wide variety of organisms for basic and biomedical research, intrinsic obstacles of those existing systems, including toxicity and silencing, have been limiting their use in vertebrate transgenesis. Here we demonstrate a novel QF-based binary transgene switch (IQ-Switch) that is relatively free of driver toxicity and transgene silencing, and exhibits potent and highly tunable transgene activation by the chemical inducer tebufenozide, a non-toxic lipophilic molecule to developing zebrafish with negligible background. The interchangeable IQ-Switch makes it possible to elicit ubiquitous and tissue specific transgene expression in a spatiotemporal manner. We generated a RASopathy disease model using IQ-Switch and demonstrated that the RASopathy symptoms were ameliorated by the specific BRAF(V600E) inhibitor vemurafenib, validating the therapeutic use of the gene switch. The orthogonal IQ-Switch provides a state-of-the-art platform for flexible regulation of transgene expression in zebrafish, potentially applicable in cell-based systems and other model organisms.


2021 ◽  
Vol 19 (1) ◽  
Author(s):  
Mónica Muñoz-Úbeda ◽  
Martina Semenzato ◽  
Anais Franco-Romero ◽  
Elena Junquera ◽  
Emilio Aicart ◽  
...  

Abstract Background Lipoplexes are non-viral vectors based on cationic lipids used to deliver DNA into cells, also known as lipofection. The positively charge of the hydrophilic head-group provides the cationic lipids the ability to condensate the negatively charged DNA into structured complexes. The polar head can carry a large variety of chemical groups including amines as well as guanidino or imidazole groups. In particular, gemini cationic lipids consist of two positive polar heads linked by a spacer with different length. As for the hydrophobic aliphatic chains, they can be unsaturated or saturated and are connected to the polar head-groups. Many other chemical components can be included in the formulation of lipoplexes to improve their transfection efficiency, which often relies on their structural features. Varying these components can drastically change the arrangement of DNA molecules within the lamellar, hexagonal or cubic phases that are provided by the lipid matrix. Lipofection is widely used to deliver genetic material in cell culture experiments but the simpler formulations exhibit major drawbacks related to low transfection, low specificity, low circulation half-life and toxicity when scaled up to in vivo experiments. Results So far, we have explored in cell cultures the transfection ability of lipoplexes based on gemini cationic lipids that consist of two C16 alkyl chains and two imidazolium polar head-groups linked with a polyoxyethylene spacer, (C16Im)2(C4O). Here, PEGylated lipids have been introduced to the lipoplex formulation and the transgene expression of the Opa1 mitochondrial transmembrane protein in mice was assessed. The addition of PEG on the surface of the lipid mixed resulted in the formation of Ia3d bicontinuous cubic phases as determined by small angle X-ray scattering. After a single intramuscular administration, the cubic lipoplexes were accumulated in tissues with tight endothelial barriers such as brain, heart, and lungs for at least 48 h. The transgene expression of Opa1 in those organs was identified by western blotting or RNA expression analysis through quantitative polymerase chain reaction. Conclusions The expression reported here is sufficient in magnitude, duration and toxicity to consolidate the bicontinuous cubic structures formed by (C16Im)2(C4O)-based lipoplexes as valuable therapeutic agents in the field of gene delivery. Graphical Abstract


2021 ◽  
Vol 12 (1) ◽  
Author(s):  
Nik Franko ◽  
Ana Palma Teixeira ◽  
Shuai Xue ◽  
Ghislaine Charpin-El Hamri ◽  
Martin Fussenegger

AbstractThe main (Mpro) and papain-like (PLpro) proteases encoded by SARS-CoV-2 are essential to process viral polyproteins into functional units, thus representing key targets for anti-viral drug development. There is a need for an efficient inhibitor screening system that can identify drug candidates in a cellular context. Here we describe modular, tunable autoproteolytic gene switches (TAGS) relying on synthetic transcription factors that self-inactivate, unless in the presence of coronavirus protease inhibitors, consequently activating transgene expression. TAGS rapidly report the impact of drug candidates on Mpro and PLpro activities with a high signal-to-noise response and a sensitivity matching concentration ranges inhibiting viral replication. The modularity of the TAGS enabled the study of other Coronaviridae proteases, characterization of mutations and multiplexing of gene switches in human cells. Mice implanted with Mpro or PLpro TAGS-engineered cells enabled analysis of the activity and bioavailability of protease inhibitors in vivo in a virus-free setting.


2021 ◽  
Vol 25 (1) ◽  
Author(s):  
Jinyu Kang ◽  
Lujie Hang ◽  
Wentao Zheng ◽  
Jia Luo ◽  
Xie Zhang ◽  
...  

Blood ◽  
2021 ◽  
Vol 138 (Supplement 1) ◽  
pp. 2844-2844
Author(s):  
Bernhard Gentner ◽  
Gaetano Finocchiaro ◽  
Francesca Farina ◽  
Marica Eoli ◽  
Capotondo Alessia ◽  
...  

Abstract Background: We developed a macrophage-based treatment relying on ex vivo transduction of autologous hematopoietic stem and progenitor cells (HSPC) to express immune-payloads within the TME. Our ATMP (Temferon) targets IFN-a, an immune-modulatory molecule counteracting also neo-angiogenesis and tumor growth, to a subset of Tie2-expressing, tumor-infiltrating macrophages known as TEMs. Materials and Methods: TEM-GBM is an open-label, Phase I/IIa dose-escalation study evaluating safety and efficacy of Temferon in up to 21 newly diagnosed glioblastoma patients with unmethylated MGMT promoter. Key eligibility criteria include age 18-70 years, ECOG 0-1 and KPS >70%, and adequate cardiac, renal, hepatic and pulmonary function. Important exclusion criteria include the presence of active autoimmune disease or receipt of any oral or parenteral chemotherapy or immunotherapy within 2 years of screening. Autologous CD34+ HSPC are mobilized with lenograstim and plerixafor, collected by apheresis, purified and transduced ex vivo with a 3 rd generation lentiviral vector encoding for IFN-a2. Transgene expression is confined to TEMs by the Tie2 promoter and post-transcriptional regulation by microRNA-126 thus achieving tumor specificity. The study evaluates safety and biological activity of Temferon in 7 cohorts of three patients each, where escalating doses of Temferon are co-administered with a fixed CD34+ cell dose of non-manipulated supporter cells following a sub-myeloablative conditioning regimen (Thiotepa + BCNU or + Busulfan). The primary endpoints for this study are: Engraftment of Temferon over the first 90 DaysThe proportion of patients achieving hematologic recovery by Day +30 from ASCTShort-term tolerability of Temferon; stable blood counts and absence of cytopenias, absence of significant organ toxicities (> grade 2); absence of Replication Competent Lentivirus The figure below reports the TEM-GBM study design. Results: As of 28th June 2021, 18 patients have been enrolled; 15 received Temferon (D+0) with follow-up of 30 - 697 days. There was rapid engraftment and hematological recovery after the conditioning regimen. Median neutrophil and platelet engraftment occurred at D+13 and D+12 for patients in cohort 1-3 and D+16 and D+15 for patients assigned to cohort 4 and 5, respectively. Temferon-derived differentiated cells, as determined by the presence of vector genomes in the DNA of peripheral blood and bone marrow cells, were found within 14 days post treatment and persisted subsequently, albeit at lower levels (up to 18 months). Very low concentrations of IFNa were detected in the plasma (average 7.8 pg/ml at D+30; baseline < LLOQ) and in the cerebrospinal fluid (average 1.6 pg/ml at D+30; baseline < LLOQ), suggesting tight regulation of transgene expression. Seven deaths occurred: six at D+241, +322, +340, +402, +478, +646 after Temferon administration due to disease progression, and one at D+60 due to complications following the conditioning regimen. Nine patients had progressive disease (PD; range D-12 to +239). SAEs include infections, venous thromboembolism, brain abscess, hemiparesis, GGT elevation and poor performance status compatible with autologous stem cell transplantation, concomitant medications and PD. Four patients underwent second surgery. These recurrent tumors had gene-marked cells present and increased expression of IFN-responsive gene signatures compared to diagnosis, indicative of local IFNa release by TEMs. In one patient, a stable lesion (as defined by MRI) had a higher proportion of T cells and TEMs within the myeloid infiltrate and an increased IFN-response signature than in a progressing lesion. The T-cell immune repertoire changed with evidence for expansion of tumor-associated clones. Tumor microenvironment characterization by scRNA and TCR sequencing is ongoing. Conclusion: These interim results show that Temferon is generally well tolerated by patients, with no dose limiting toxicities identified to date. The results provide initial evidence of Temferon's potential to activate the immune system and reprogram the tumor microenvironment (TME), as predicted by preclinical studies. Figure 1 Figure 1. Disclosures Naldini: Genenta Science: Consultancy, Current equity holder in publicly-traded company, Membership on an entity's Board of Directors or advisory committees, Other: Founder.


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