Oscar Simonson - Academia.edu (original) (raw)

Papers by Oscar Simonson

Stem cells translational medicine, Jan 18, 2015

: Mesenchymal stromal cells (MSCs) have been investigated as a treatment for various inflammatory... more : Mesenchymal stromal cells (MSCs) have been investigated as a treatment for various inflammatory diseases because of their immunomodulatory and reparative properties. However, many basic questions concerning their mechanisms of action after systemic infusion remain unanswered. We performed a detailed analysis of the immunomodulatory properties and proteomic profile of MSCs systemically administered to two patients with severe refractory acute respiratory distress syndrome (ARDS) on a compassionate use basis and attempted to correlate these with in vivo anti-inflammatory actions. Both patients received 2 × 10(6) cells per kilogram, and each subsequently improved with resolution of respiratory, hemodynamic, and multiorgan failure. In parallel, a decrease was seen in multiple pulmonary and systemic markers of inflammation, including epithelial apoptosis, alveolar-capillary fluid leakage, and proinflammatory cytokines, microRNAs, and chemokines. In vitro studies of the MSCs demonstrated a broad anti-inflammatory capacity, including suppression of T-cell responses and induction of regulatory phenotypes in T cells, monocytes, and neutrophils. Some of these in vitro potency assessments correlated with, and were relevant to, the observed in vivo actions. These experiences highlight both the mechanistic information that can be gained from clinical experience and the value of correlating in vitro potency assessments with clinical effects. The findings also suggest, but do not prove, a beneficial effect of lung protective strategies using adoptively transferred MSCs in ARDS. Appropriate randomized clinical trials are required to further assess any potential clinical efficacy and investigate the effects on in vivo inflammation. This article describes the cases of two patients with severe refractory adult respiratory syndrome (ARDS) who failed to improve after both standard life support measures, including mechanical ventilation, and additional measures, including extracorporeal ventilation (i.e., in a heart-lung machine). Unlike acute forms of ARDS (such in the current NIH-sponsored study of mesenchymal stromal cells in ARDS), recovery does not generally occur in such patients.

Annals of medicine, Jan 3, 2015

Human pluripotent stem cells (hPSCs) have practically unlimited proliferation potential and a cap... more Human pluripotent stem cells (hPSCs) have practically unlimited proliferation potential and a capability to differentiate into any cell type in the human body. Since the first derivation in 1998, they have been an attractive source of cells for regenerative medicine. Numerous ethical, technological, and regulatory complications have been hampering hPSC use in clinical applications. Human embryonic stem cells (ESCs), parthenogenetic human ESCs, human nuclear transfer ESCs, and induced pluripotent stem cells are four types of hPSCs that are different in many clinically relevant features such as propensity to epigenetic abnormalities, generation methods, and ability for development of autologous cell lines. Propensity to genetic mutations and tumorigenicity are common features of all pluripotent cells that complicate hPSC-based therapies. Several recent advances in methods of derivation, culturing, and monitoring of hPSCs have addressed many ethical concerns and technological challenge...

Finding the optimal combinations of ligands for tissue-specific delivery is tedious even if only ... more Finding the optimal combinations of ligands for tissue-specific delivery is tedious even if only a few well-established compounds are tested. The cargo affects the receptor-ligand interaction, especially when it is charged like DNA. The ligand should therefore be evaluated together with its cargo. Several viruses have been shown to interact with more than one receptor, for efficient internalization. We here

Molecular therapy. Nucleic acids, 2014

Inducible systems for gene expression emerge as a new class of artificial vectors offering tempor... more Inducible systems for gene expression emerge as a new class of artificial vectors offering temporal and spatial exogenous control of gene expression. However, most inducible systems are less efficient in vivo and lack the target-organ specificity. In the present study, we have developed and optimized an oligonucleotide-based inducible system for the in vivo control of transgenes in the liver. We generated a set of simple, inducible plasmid-vectors based on the addition of four units of liver-specific miR-122 target sites to the 3'untranslated region of the gene of interest. Once the vector was delivered into hepatocytes this modification induced a dramatic reduction of gene expression that could be restored by the infusion of an antagomir for miR-122. The efficiency of the system was tested in vivo, and displayed low background and strong increase in gene expression upon induction. Moreover, gene expression was repeatedly induced even several months after the first induction sho...

BioResearch open access, 2013

Transplantation of human embryonic stem cells (hESCs), like other allogeneic cellular transplants... more Transplantation of human embryonic stem cells (hESCs), like other allogeneic cellular transplants, require immunomodulation or immunosuppression in order to be maintained in the recipient. Costimulation blockade applied at the time of transplantation inhibits costimulatory signals in the immunological synapse leading to a state of anergy in the donor reactive T-cell population and a state of immunological tolerance in the host. In models of solid organ transplantation, tolerance is maintained by the infiltration of Foxp3(+) regulatory T cells into the graft. In order to study if regulatory T cells could be generated to hESC transplants, costimulation blockade (CTLA4Ig, anti-CD40L, anti-LFA-1) was administered for the first week after transplantation of two different hESC lines implanted under the kidney capsule of wild-type mice. hESC transplants were maintained indefinitely, and when harvested at long-term follow-up, Foxp3(+) T-cells were found surrounding the graft, implying the m...

Nature Communications, 2014

Lack of robust methods for establishment and expansion of pluripotent human embryonic stem (hES) ... more Lack of robust methods for establishment and expansion of pluripotent human embryonic stem (hES) cells still hampers development of cell therapy. Laminins (LN) are a family of highly cell-type specific basement membrane proteins important for cell adhesion, differentiation, migration and phenotype stability. Here we produce and isolate a human recombinant LN-521 isoform and develop a cell culture matrix containing LN-521 and E-cadherin, which both localize to stem cell niches in vivo. This matrix allows clonal derivation, clonal survival and long-term self-renewal of hES cells under completely chemically defined and xeno-free conditions without ROCK inhibitors. Neither LN-521 nor E-cadherin alone enable clonal survival of hES cells. The LN-521/E-cadherin matrix allows hES cell line derivation from blastocyst inner cell mass and single blastomere cells without a need to destroy the embryo. This method can facilitate the generation of hES cell lines for development of different cell types for regenerative medicine purposes.

Molecular Biotechnology, 2010

Accurate hybridization is dependent on the ratio between sequence-specific and unspecific binding... more Accurate hybridization is dependent on the ratio between sequence-specific and unspecific binding. Dissociation of unspecifically bound, while maintaining specifically hybridized, nucleic acids are key steps to obtain a well-defined complex. We have developed a new method, temperature-assisted, cyclic hybridization (TACH), which increases cognate binding at the expense of unspecific hybridization. The method was used for optimizing binding of peptide nucleic acid (PNA) to supercoiled plasmids and has several advantages over previous methods: (1) it reduces the required amount of bis-PNA by three-to fourfold; (2) it results in less unspecific binding; (3) it extends cooperative hybridization, from 3 bp to 5 bp between two adjacent binding sites; and (4) it decreases the aggregation of bis-PNA. This method might be extended to other forms of hybridizations including the use of additional nucleic acids analogs, such as locked nucleic acid (LNA) and, also, to other areas where PNAs are used such as fluorescence in situ hybridization (FISH), microarrays, or in vivo plasmid delivery.

The Journal of Gene Medicine, 2008

Background RNA polymerase III (pol III)-dependent transcripts are involved in many fundamental ac... more Background RNA polymerase III (pol III)-dependent transcripts are involved in many fundamental activities in a cell, such as splicing and protein synthesis. They also regulate cell growth and influence tumor formation. During recent years vector-based systems for expression of short hairpin (sh) RNA under the control of a pol III promoter have been developed as gene-based medicines. Therefore, there is an increasing interest in means to regulate pol III-dependent transcription. Recently, we have developed a novel anti-gene molecule 'Zorro LNA (Locked Nucleic Acid)', which simultaneously hybridizes to both strands of super-coiled DNA and potently inhibits RNA polymerase II-derived transcription. We have now applied Zorro LNA in an attempt to also control U6 promoter-driven expression of shRNA.

In recent years, oligonucleotide-based molecules have been intensely used to modulate gene expres... more In recent years, oligonucleotide-based molecules have been intensely used to modulate gene expression. All these molecules share the common feature of being essentially impermeable over cellular membranes and they therefore require efficient delivery vectors. Cell-penetrating peptides are a group of delivery peptides that has been readily used for nucleic acid delivery. In particular, polyarginine and derivates thereof, i.e. the (RxR) 4 peptide, have been applied with success both in vitro and in vivo. A major problem, however, with these arginine-rich peptides is that they frequently remain trapped in endosomal compartments following internalization. The activity of polyarginine has previously been improved by conjugation to a stearyl moiety. Therefore, we sought to investigate what impact such modification would have on the pre-clinically used (RxR) 4 peptide for non-covalent delivery of plasmids and splice-correcting oligonucleotides (SCOs) and compare it with stearylated Arg9 and Lipofectamine™ 2000. We show that stearyl-(RxR) 4 mediates efficient plasmid transfections in several cell lines and the expression levels are significantly higher than when using unmodified (RxR) 4 or stearylated Arg9. Although the transfection efficiency is lower than with Lipofectamine™ 2000, we show that stearyl-(RxR) 4 is substantially less toxic. Furthermore, using a functional splice-correction assay, we show that stearyl-(RxR) 4 complexed with 2′-OMe SCOs promotes significant splice correction whereas stearyl-Arg9 fails to do so. Moreover, stearyl-(RxR) 4 promotes dose-dependent splice correction in parity with (RxR) 4 -PMO covalent conjugates, but at least 10-times lower concentration. These features make this stearic acid modified analog of (RxR) 4 an intriguing vector for future in vivo experiments.

Journal of Cardiovascular Pharmacology, 2009

Background: Gene transfer to heart muscle is a promising modality to treat ischemic heart disease... more Background: Gene transfer to heart muscle is a promising modality to treat ischemic heart disease. However, current vectors are inefficient and need to be improved. A novel vector system that shows great promise is the minicircle (MC) vector being smaller than conventional plasmid vectors and devoid of bacterial sequences.

Genetica, 2009

In both basic research as well as experimental gene therapy the need to transfer genetic material... more In both basic research as well as experimental gene therapy the need to transfer genetic material into a cell is of vital importance. The cellular compartment, which is the target for the genetic material, depends upon application. An siRNA that mediates silencing is preferably delivered to the cytosol while a transgene would need to end up in the nucleus for successful transcription to occur. Furthermore the ability to regulate gene expression has grown substantially since the discovery of RNA interference. In such diverse fields as medical research and agricultural pest control, the capability to alter the genetic output has been a useful tool for pushing the scientific frontiers. This review is focused on nanotechnological approaches to assemble optimised structures of nucleic acid derivatives to facilitate gene delivery as well as promoting down regulation of endogenous genes.

Gene Therapy, 2009

The lack of efficient in vivo gene delivery is a well-known shortcoming of nonviral delivery vect... more The lack of efficient in vivo gene delivery is a well-known shortcoming of nonviral delivery vectors, in particular of chemical vectors. We developed a series of novel nonviral carriers for plasmid-based in vivo gene delivery. This new transport device is based on the assembly of DNA plasmids with synthetic derivatives of naturally occurring moleculesfatty acid-spermine conjugates (or lipospermines). We tested the ability of these fatty acid conjugates to interact with plasmid DNA (pDNA) and found that they formed DNA nanocomplexes, which are protected from DNase I degradation. This protection was shown to directly correlate with the length of the aliphatic component. However, this increase in the length of the hydrocarbon chain resulted in increased toxicity. The cationic lipids used for transfection typically have a C 16 and C 18 hydrocarbon chain. Interestingly, toxicity studies, together with further characterization studies, suggested that the two most suitable candidates for in vivo delivery are those with the shortest hydrocarbon chain, butanoyl-and decanoylspermine. Morphological characterization of DNA nanocomplexes resulting from these lipospermines showed the formation of a homogenous population, with the diameter ranging approximately from 40 to 200 nm. Butanoylspermine was found to be the most promising carrier from this series, resulting in a significantly increased gene expression, in relation to naked plasmid, in both tissues herein targeted (dermis and M. tibialis anterior). Thus, we established a correlation between the in vitro properties of the ensuing DNA nanocarriers and their efficient in vivo gene expression.

Current Pharmaceutical Design, 2005

Non-viral gene delivery is an important approach in order to establish safe in vivo gene therapy ... more Non-viral gene delivery is an important approach in order to establish safe in vivo gene therapy in the clinic. Although viral vectors currently exhibit superior gene transfer efficacy, the safety aspect of viral gene delivery is a concern. In order to improve non-viral in vivo gene delivery we have designed a pharmaceutical platform called Bioplex (biological complex). The concept of Bioplex is to link functional entities via hybridising anchors, such as Peptide Nucleic Acids (PNA), directly to naked DNA. In order to promote delivery functional entities consisting of biologically active peptides or carbohydrates, are linked to the PNA anchor. The PNA acts as genetic glue and hybridises with DNA in a sequence specific manner. By using functional entities, which elicit receptor-mediated endocytosis, improved endosomal escape and enhance nuclear entry we wish to improve the transfer of genetic material into the cell. An important aspect is that the functional entities should also have tissue-targeting properties in vivo. Examples of functional entities investigated to date are the Simian virus 40 nuclear localisation signal to improve nuclear uptake and different carbohydrate ligands in order to achieve receptor specific uptake. The delivery system is also endowed with regulatory capability, since the release of functional entities can be controlled. The aim is to create a safe, pharmaceutically defined and stable delivery system for nucleic acids with enhanced transfection properties that can be used in the clinic.

Biochemical and Biophysical Research Communications, 2009

HIV-1 has proved to be notoriously difficult to tackle despite the availability of more than 20 c... more HIV-1 has proved to be notoriously difficult to tackle despite the availability of more than 20 clinically approved drugs. The majority of these drugs, however, target viral genes and their continued use will select for drug-resistant strains. Since NF-kappaB signaling is critical for viral replication, we wanted to investigate the effect of proteasome inhibitors on viral gene expression. We herein demonstrate that proteasome and NF-kappaB inhibitors effectively shut down transcription from the HIV-1 LTR-promoter. We further show that replication of HIV-1 in PBMC was severely compromised following treatment with proteasome inhibitors alone or in combination with other antiretroviral drugs. Finally, incubation of PBMC with these drugs reduced expression of IL-2 inducible T cell kinase (Itk), a Tec-family kinase, recently shown to be required for HIV-1 replication. These results suggest that proteasome inhibitors suppress LTR-promoter activity by interfering with cellular targets required for viral replication.

Nucleic Acids Research, 2011

While small interfering RNAs (siRNAs) have been rapidly appreciated to silence genes, efficient a... more While small interfering RNAs (siRNAs) have been rapidly appreciated to silence genes, efficient and non-toxic vectors for primary cells and for systemic in vivo delivery are lacking. Several siRNA-delivery vehicles, including cell-penetrating peptides (CPPs), have been developed but their utility is often restricted by entrapment following endocytosis. Hence, developing CPPs that promote endosomal escape is a prerequisite for successful siRNA implementation. We here present a novel CPP, PepFect 6 (PF6), comprising the previously reported stearyl-TP10 peptide, having pH titratable trifluoromethylquinoline moieties covalently incorporated to facilitate endosomal release. Stable PF6/ siRNA nanoparticles enter entire cell populations and rapidly promote endosomal escape, resulting in robust RNAi responses in various cell types (including primary cells), with minimal associated transcriptomic or proteomic changes. Furthermore, PF6-mediated delivery is independent of cell confluence and, in most cases, not significantly hampered by serum proteins. Finally, these nanoparticles promote strong RNAi responses in different organs following systemic delivery in mice without any associated toxicity. Strikingly, similar knockdown in liver is achieved by PF6/siRNA nanoparticles and siRNA injected by hydrodynamic infusion, a golden standard technique for liver transfection. These results imply that the peptide, in addition to having utility for RNAi screens in vitro, displays therapeutic potential.