Your search keyword '"Hanna M. Leinonen"' showing total 5 results

1. Corrigendum: Optimized riboswitch-regulated AAV vector for VEGF-B gene therapy

Author

Reetta A. E. Eriksson, Tiina Nieminen, Lionel Galibert, Sanna K. Peltola, Petra Tikkanen, Piia Käyhty, Hanna M. Leinonen, Igor Oruetxebarria, Saana Lepola, Anniina J. Valkama, Eevi M. Lipponen, Hanna P. Lesch, Seppo Ylä-Herttuala, and Kari J. Airenne

Subjects

riboswitch, ON-switch, gene therapy, AAV (adeno-associated virus), VEGF-B, tetracycline, Medicine (General), R5-920

Published

2023

2. Optimized riboswitch-regulated AAV vector for VEGF-B gene therapy

Author

Reetta A. E. Eriksson, Tiina Nieminen, Lionel Galibert, Sanna K. Peltola, Petra Tikkanen, Piia Käyhty, Hanna M. Leinonen, Igor Oruetxebarria, Saana Lepola, Anniina J. Valkama, Eevi M. Lipponen, Hanna P. Lesch, Seppo Ylä-Herttuala, and Kari J. Airenne

Subjects

riboswitch, ON-switch, gene therapy, AAV (adeno-associated virus), VEGF-B, tetracycline, Medicine (General), R5-920

Abstract

Gene therapy would greatly benefit from a method to regulate therapeutic gene expression temporally. Riboswitches are small RNA elements that have been studied for their potential use in turning transgene expression on or off by ligand binding. We compared several tetracycline and toyocamycin-inducible ON-riboswitches for a drug responsive transgene expression. The tetracycline-dependent K19 riboswitch showed the best control and we successfully applied it to different transgenes. The induction of gene expression was 6- to 10-fold, dose-dependent, reversible, and occurred within hours after the addition of a clinically relevant tetracycline dose, using either plasmid or adeno-associated virus (AAV) vectors. To enhance the switching capacity, we further optimized the gene cassette to control the expression of a potential therapeutic gene for cardiovascular diseases, VEGF-B. Using two or three riboswitches simultaneously reduced leakiness and improved the dynamic range, and a linker sequence between the riboswitches improved their functionality. The riboswitch function was promoter-independent, but a post-transcriptional WPRE element in the expression cassette reduced its functionality. The optimized construct was a dual riboswitch at the 3′ end of the transgene with a 100 bp linker sequence. Our study reveals significant differences in the function of riboswitches and provides important aspects on optimizing expression cassette designs. The findings will benefit further research and development of riboswitches.

Published

2022

3. Development of Large-Scale Downstream Processing for Lentiviral Vectors

Author

Anniina J. Valkama, Igor Oruetxebarria, Eevi M. Lipponen, Hanna M. Leinonen, Piia Käyhty, Heidi Hynynen, Vesa Turkki, Joonas Malinen, Tuukka Miinalainen, Tommi Heikura, Nigel R. Parker, Seppo Ylä-Herttuala, and Hanna P. Lesch

Subjects

lentiviral vector, process, scale-up, tangential flow filtration, anion exchange, chromatography, Genetics, QH426-470, Cytology, QH573-671

Abstract

The interest in lentiviral vectors (LVs) has increased prominently for gene therapy applications, but few have reached the later stages of clinical trials. The main challenge has remained in scaling up the manufacturing process for the fragile vector to obtain high titers for in vivo usage. We have previously scaled up the LV production to iCELLis 500, being able to produce up to 180 L of harvest material in one run with perfusion. The following challenge considers the purification and concentration of the product to meet titer and purity requirements for clinical use. We have developed a downstream process, beginning with clarification, buffer exchange, and concentration, by tangential flow filtration. This is followed by a purification step using single membrane-based anion exchange chromatography and final formulation with tangential flow filtration. Different materials and conditions were compared to optimize the process, especially for the chromatography step that has been the bottleneck in lentiviral vector purification scale-up. The final infectious titer of the lentiviral vector product manufactured using the optimized scale-up process was determined to be 1.97 × 109 transducing units (TU)/mL, which can be considered as a high titer for lentiviral vectors.

Published

2020

4. Preclinical Proof-of-Concept, Analytical Development, and Commercial Scale Production of Lentiviral Vector in Adherent Cells

Author

Hanna M. Leinonen, Eevi M. Lipponen, Anniina J. Valkama, Heidi Hynynen, Igor Oruetxebarria, Vesa Turkki, Venla Olsson, Jere Kurkipuro, Haritha Samaranayake, Ann-Marie Määttä, Nigel R. Parker, Seppo Ylä-Herttuala, and Hanna P. Lesch

Subjects

Genetics, QH426-470, Cytology, QH573-671

Abstract

The therapeutic efficacy of a lentiviral vector (LV) expressing the herpes simplex virus thymidine kinase (HSV-TK) was studied in an immunocompetent rat glioblastoma model. Intraperitoneal ganciclovir injections (50 mg/kg/day) were administered for 14 consecutive days, resulting in reduced tumor volumes as monitored by MRI. Survival analyses revealed a significant improvement among the LV-expressing HSV-TK (LV-TK)/ganciclovir-treated animals when compared to non-treated control rats. However, a limiting factor in the use of LV has been the suboptimal small-scale production in flasks. Our aim during the translation phase, prior to entering the final pre-clinical and early clinical phases, was to develop a scalable, robust, and disposable manufacturing process for LV-TKs. We also aimed to minimize future process changes and enable production upscaling to make the process suitable for larger patient populations. The upstream process relies on fixed-bed iCELLis technology and transient plasmid transfection. This is the first time iCELLis 500 commercial-scale bioreactor was used for LV production. A testing strategy to determine the pharmacological activity of LV-TK drug product by measuring cell viability was developed, and the specificity of the potency assay was also proven. In this paper we focus on upstream process development while showing analytical development and the proof-of-concept of LV-TK functionality. Keywords: lentivirus, bioreactor, transfection, production, scale up, glioma

Published

2019

5. Nrf2 and SQSTM1/p62 jointly contribute to mesenchymal transition and invasion in glioblastoma

Author

Petri, Pölönen, Ashik, Jawahar Deen, Hanna M, Leinonen, Henna-Kaisa, Jyrkkänen, Suvi, Kuosmanen, Mimmi, Mononen, Ashish, Jain, Tomi, Tuomainen, Sanna, Pasonen-Seppänen, Jaana M, Hartikainen, Arto, Mannermaa, Matti, Nykter, Pasi, Tavi, Terje, Johansen, Merja, Heinäniemi, and Anna-Liisa, Levonen

Subjects

Feedback, Physiological, Male, Epithelial-Mesenchymal Transition, Kelch-Like ECH-Associated Protein 1, NF-E2-Related Factor 2, Progression-Free Survival, Gene Expression Regulation, Neoplastic, Oxidative Stress, Sequestosome-1 Protein, Human Umbilical Vein Endothelial Cells, Humans, Female, Neoplasm Invasiveness, Glioblastoma, Cell Proliferation, Protein Binding, Signal Transduction

Abstract

Accumulating evidence suggests that constitutively active Nrf2 has a pivotal role in cancer as it induces pro-survival genes that promote cancer cell proliferation and chemoresistance. The mechanisms of Nrf2 dysregulation and functions in cancer have not been fully characterized. Here, we jointly analyzed the Broad-Novartis Cancer Cell Line Encyclopedia (CCLE) and the Cancer Genome Atlas (TCGA) multi-omics data in order to identify cancer types where Nrf2 activation is present. We found that Nrf2 is hyperactivated in a subset of glioblastoma (GBM) patients, whose tumors display a mesenchymal subtype, and uncover several different mechanisms contributing to increased Nrf2 activity. Importantly, we identified a positive feedback loop between SQSTM1/p62 and Nrf2 as a mechanism for activation of the Nrf2 pathway. We also show that autophagy and serine/threonine signaling regulates p62 mediated Keap1 degradation. Our results in glioma cell lines indicate that both Nrf2 and p62 promote proliferation, invasion and mesenchymal transition. Finally, Nrf2 activity was associated with decreased progression free survival in TCGA GBM patient samples, suggesting that treatments have limited efficacy if this transcription factor is overactivated. Overall, our findings place Nrf2 and p62 as the key components of the mesenchymal subtype network, with implications to tumorigenesis and treatment resistance. Thus, Nrf2 activation could be used as a surrogate prognostic marker in mesenchymal subtype GBMs. Furthermore, strategies aiming at either inhibiting Nrf2 or exploiting Nrf2 hyperactivity for targeted gene therapy may provide novel treatment options for this subset of GBM.

Published

2019