Transgene Deletions in Long-Term Circulating Donor Gene-Modified T Lymphocytes Infused at Time of Hematopoietic Transplantation.

Blood ◽  
2005 ◽  
Vol 106 (11) ◽  
pp. 461-461 ◽  
Author(s):  
Patricia Mercier ◽  
Marina Deschamps ◽  
Christophe Ferrand ◽  
Eric Robinet ◽  
Jean-Marie Certoux ◽  
...  
Keyword(s):  
Immune Response ◽  
Gene Detection ◽  
Gene Deletions ◽  
Immunogenic Peptides ◽  
Hematopoietic Transplantation ◽  
Simplex Virus ◽  
Neomycin Resistance ◽  
Donor Gene

Abstract A phase I/II trial of Herpes-Simplex Virus-thymidine kinase (HSV-tk)-expressing gene modified T cells (GMTC) administration at time of HLA-identical sibling bone marrow transplantation (BMT) demonstrated that such an approach could modulate deleterious alloreactivity after BMT (Tiberghien et al., Blood 2001). The Neomycin resistance gene (NeoR) was transferred together with the HSV-tk gene in a retroviral vector to allow for in vitro GMTC selection. More than 6 years after BMT, 4 patients are alive in complete remission, off immunosuppression, free of chronic graft-versus-host disease (GvHD). Long-term circulating GMTC are continuously found in all 4 patients, as assessed by quantitative PCR (QPCR) for NeoR gene (6 years post-BMT: 0.031 +/- 0.017% of PBMC). Unexpectedly, presence of NeoR gene was readily detected by single run PCR whereas a nested PCR was necessary for HSV-tk gene detection. As PCR assays for both genes have a similar sensitivity, this result suggested that deletions may be present in GMTC. For each patient, PBMC were polyclonally activated and expanded before a one week G418-mediated selection. The % of GMTC in the post-selection samples, as assessed of NeoR QPCR, was > 80% in 3 patients while of only 7% in the last patient, thus demonstrating long-term NeoR transgene expression in at least a fraction of circulating GMTC more than 6 years after BMT. Successfully re-selected GMTC were cloned. As expected, most clones (25 out of 26) were found to be NeoR by PCR. In contrast, only 2/26 were HSV-tk+: one clone contained the full length HSV-tk gene while the second contained the ganciclovir (GCV)-resistant truncated form of the HSV-tk gene (Garin et al., Blood 2001). Clones generated from freshly produced-GMTC were found to be both NeoR+ and HSV-tk+ thus demonstrating that such gene deletions did not occur with a significant frequency during the GMTC production nor during the cloning process. We have previously established that an immune response against GMTC occurred in most patients (Mercier et al., ASH 2004). Immune responses were found against both transgenes and predominantly so against HSV-tk. Immuno-selection of initially rare GMTC containing a deleted transgene without expression of immunogenic peptides might significantly contribute to the high proportion of long-term circulating GMTC containing mutated HSV-tk genes. Such deletions within the transgenes most likely explain the coexistence of an immune response against the transgenes and persistent circulating GMTC. Nevertheless, GCV-sensitivity of circulating GMTC and more importantly so, of GvHD during the first 4 months after BMT suggests that the high frequency of the mutated GMTC occurred late enough after BMT to not interfere with GCV-mediated control of GvHD.

A Large Majority of Donor NeoR-Expressing Gene Modified T-Cells Circulating More Than 9 Years after Infusion with allo-BMT, and Capable of Being In-Vitro Expanded and Cloned, Contain a Large Deletion of the HS-tk Gene and Arise from One T-Cell Clone in Each Patient.

Blood ◽  
2006 ◽  
Vol 108 (11) ◽  
pp. 201-201 ◽  
Author(s):  
Marina Deschamps ◽  
Patricia Mercier ◽  
Céline Pagneux ◽  
Jean-Marie Certoux ◽  
Eric Deconinck ◽  
...  
Keyword(s):  
Immune Response ◽  
T Cells ◽  
Patient Specific ◽  
Packaging Cell Line ◽  
Gene Deletions ◽  
Packaging Cell ◽  
Pcr Assays

Abstract We performed a clinical trial of HS-tk-expressing gene-modified T cell (GMTC) infusion at time of geno-identical allo-BMT. Among 12 patients (pts) initially included, 4 are still alive, off immunosuppression, free of chronic graft-versus-host disease (GvHD). More than 9 years after BMT, circulating GMTC can be found in all 4 patient’s mononuclear cells (PBMC), as detected by HS-tk or NeoR quantitative PCR assays. Although a similar sensitivity for both assays, GMTC were detected at a lower level with the HS-tk vs NeoR PCR assay, suggesting HS-tk gene deletions. The aims of our study were to develop a molecular tool in order to precisely identify the areas of deletion, characterize the mechanism of deletion and determine if the deletions were present in the packaging cell line genome or occurred ex-vivo during GMTC preparation or subsequently in-vivo. PBMC, harvested from the 4 pts (70, 106, 67 & 76 months post BMT) were polyclonally expanded, G418-selected and cloned. Of 32 NeoR+ clones, 31 (12, 3, 2 and 14 clones for pts #6, 7, 8 & 9, respectively) were HS-tk PCR negative, confirming the presence of HS-tk transgene deletions in a large majority (31/32) of long-term circulating Neo-R expressing GMTC. By contrast, all clones generated from freshly produced GMTC were found to be both NeoR+/HS-tk+, excluding an impact of the cloning process. Using a newly designed PCR-based transgene “walking” method (from the NeoR gene to the 5′LTR), we identified, among the 31 NeoR+HS-tk- clones, 4 different deletions, each one patient specific, involving the total HS-tk transgene and including partial flanking SV40 or packaging signal y sequences. These newly identified deletions differed from the spliced HS-tk form previously described (Garin et al., Blood 2001). Junction deletion areas were sequenced and involved, for 3 out of 4 patients, homologue sequence motifs (CCGCCC, AATTC and GATC respectively for pt# 6, 7 & 8), suggesting recombination mechanisms within the transgene sequences. With the help of deletion-specific PCR assays, we then confirmed that each deletion was patient-specific and not detected in the 3 other pts. Using more sensitive deletion-specific (nested) PCR assays, no deletions within packaging cell line DNA were detected. Nevertheless, these patient-specific deletions were found in GMTC products, albeit at a very low frequency, prior to infusion at time of BMT as well as 1, 3 and 6 years post infusion, independently of GCV treatment or anti-HS-tk immune response. Lastly, by means of LAM-PCR, we determined that all the clones of a same patient carried the same patient-specific insertional site, demonstrating that all the G418-reselected/cloned T cells of a patient derived from the same original GMTC. Overall, we establish that patient-specific HS-tk gene deletions occur within the integrated retroviral sequence in GMTC prior to infusion; HS-tk gene deletions are found in almost all Neo-R expressing long term circulating GMTC, thus strongly in favour of a in vivo selection advantage, by escaping an anti- HS-tk immune response and/or GCV treatment and unique patient-specific HS-tk gene deletions and retroviral insertion site in GMTC capable of in-vitro expansion/cloning. This last finding suggests an extremely rare initial gene deletion event and/or a possible in vivo growth/survival advantage of rare GMTC clones.

Construction and optimization of herpes simplex virus vectors for central nervous system gene delivery based on CRISPR/Cas9-mediated genome editing

2021 ◽  
Vol 21 ◽  
Author(s):  
Xinwei Huang ◽  
Xiuqing Li ◽  
Lijuan Yang ◽  
Pengfei Wang ◽  
Jingyuan Yan ◽  
...  
Keyword(s):  
Gene Expression ◽  
Herpes Simplex Virus ◽  
Herpes Simplex ◽  
Transgene Expression ◽  
Mouse Hippocampus ◽  
Simplex Virus ◽  
Hsv 1

Aims: We aim to define parameters affecting the safety and long-term transgene expression of attenuated HSV-1 vectors and optimize the expression cassettes to achieve robust and sustained expression in CNS. Background: Engineered, attenuated Herpes simplex virus (HSV) vectors are promising vehicles for gene delivery to the peripheral and central nervous systems. The virus latent promoter (LAP) is commonly used to drive exogenous gene expression; however, parameters affecting the safety and long-term transgene expression of attenuated HSV-1 vectors have not been fully understood. Objective: This study aimed to construct attenuated HSV-1 vectors using the CRISPR-Cas9 system and examine the influence of transgene cassette construction and insertion site on transgene expression and vector safety. Method: In this study, we used a CRISPR-Cas9 system to accurately and efficiently edit attenuated HSV-1 strain 1716, and constructed two series of recombinant virus LMR and LMRx with different sets of gene cassettes insertion in Exon1(LAP2) and 2.0 kb intron downstream of LAP, respectively. The transgene expression and viral gene transcriptional kinetics were compared in in-vitro cell lines. The reporter gene expression and safety profiles of each vector were further evaluated in the mouse hippocampus gene transduction model. Result: The in-vitro cell line analysis indicated that the insertion of a gene expression cassette would disrupt virus gene transcription. Mouse hippocampus transducing analysis suggested that complete expression cassette insertion at 2.0 kb intron could achieve robust and longtime gene expression than the other constructs. Recombinants with gene expression cassettes lacked Poly (A), which induced significant neuronal inflammation due to persistent viral antigen expression and microglia activation. Conclusion: Our results indicated that the integrity of LAT transcripts was not necessary for the establishment of long-term latent expression. Exogenous strong promoters (like cBh promoter) could remain active during latency when placed in Exon1 or 2.0 Kb Intron of LAT locus, although their transcriptional activity declined with time. Consistent with previous research, the foreign gene expression would last much longer when the gene cassette was located downstream of Exon1, which suggested a role of LAP2 in maintaining promoter activity during latency. Besides, over-transcription of the downstream part of LAT may induce continuous activation of the attenuated vectors, suggesting an important role of LAT in maintaining viral reactivation potential.

scholarly journals Role for Plasmacytoid Dendritic Cells in the Immune Control of Recurrent Human Herpes Simplex Virus Infection

2008 ◽  
Vol 83 (4) ◽  
pp. 1952-1961 ◽  
Author(s):  
Heather Donaghy ◽  
Lidija Bosnjak ◽  
Andrew N. Harman ◽  
Valerie Marsden ◽  
Stephen K. Tyring ◽  
...  
Keyword(s):  
Immune Response ◽  
Dendritic Cells ◽  
Herpes Simplex Virus ◽  
Herpes Simplex ◽  
Virus Infection ◽  
Plasmacytoid Dendritic Cells ◽  
Immune Control ◽  
T Lymphocyte Proliferation ◽  
Simplex Virus

ABSTRACT Plasmacytoid dendritic cells (pDC) are an important component of the innate immune response, producing large amounts of alpha interferon in response to viral stimulation in vitro. Under noninflammatory conditions, pDC are not found in the skin and are restricted in location to the blood and lymph nodes. Therefore, their role in mucosal and cutaneous herpes simplex virus (HSV) infection has not been well-defined. In this study we show a role for human pDC in the immune response to HSV infection. First, by confocal microscopy we showed that pDC infiltrate the dermis of recurrent genital herpes simplex lesions at early and late phases, often at the dermo-epidermal junction. We then showed that pDC in vitro are resistant to HSV infection despite expressing the entry receptors CD111, CD112, and HVE-A. Within the lesions, pDC were found closely associated with CD3+ lymphocytes and NK cells, especially those which were activated (CD69+). Furthermore, these HSV-exposed pDC were able to stimulate virus-specific autologous T-lymphocyte proliferation. We conclude from this work that pDC may contribute to the immune control of recurrent herpes virus infection in vivo.

Inhibition of in vitro immune response by extracts from long-term cultured lymphoid cells

1979 ◽  
Vol 42 (1) ◽  
pp. 177-182 ◽  
Author(s):  
Marie-Agnès Delpierre ◽  
Jacques Panijel ◽  
Micheline Terquem ◽  
Jacqueline Maridat
Keyword(s):  
Immune Response ◽  
Lymphoid Cells ◽  
In Vitro Immune Response

scholarly journals Silicone-Acyclovir Controlled Release Devices Suppress Primary Herpes Simplex Virus-2 and Varicella Zoster Virus InfectionsIn Vitro

2013 ◽  
Vol 2013 ◽  
pp. 1-9 ◽  
Author(s):  
Carol L. Berkower ◽  
Nicole M. Johnson ◽  
Stephen B. Longdo ◽  
Shenika O. McGusty-Robinson ◽  
Samantha L. Semenkow ◽  
...  
Keyword(s):  
Slow Release ◽  
Clinical Symptoms ◽  
Drug Regimen ◽  
Daily Basis ◽  
Varicella Zoster ◽  
Simplex Virus ◽  
Hsv 1

Following initial infection, herpesviruses retreat into a permanent latent state with periodic reactivation resulting in an enhanced likelihood of transmission and clinical disease. The nucleoside analogue acyclovir reduces clinical symptoms of the three human alpha herpesviruses, HSV-1, HSV-2, and VZV. Long-term administration of acyclovir (ACV) can reduce the frequency and severity of reactivation, but its low bioavailability and short half-life require a daily drug regimen. Our lab is working to develop a subcutaneous delivery system to provide long-lasting, sustained release of ACV. Previously, we demonstrated that an implantable silicone (MED-4050) device, impregnated with ACV protected against HSV-1 bothin vitroandin vivo. Here, we extend ourin vitroobservations to include protection against both HSV-2 and VZV. We also demonstrate protection against HSV-2in vitrousing MED-4750, a silicone polymer designed for long-term use in humans. When release of ACV from MED-4750 is quantitated on a daily basis, an initial burst of 5 days is observed, followed by a long period of slow release with near-zero-order kinetics, with an average daily release of 1.3923 ± 0.5908 μg ACV over days 20–60. Development of a slow-release implant has the potential to significantly impact the treatment of human alpha herpesvirus infections.

Unravelling some mysteries of porcine respiratory and reproductive syndrome virus (PRRSV) infections: new insights from modelling studies

2009 ◽  
Vol 2009 ◽  
pp. 30-30
Author(s):  
A Doeschl-Wilson ◽  
I Kyriazakis ◽  
L Galina-Pantoja
Keyword(s):  
Immune Response ◽  
Host Immune Response ◽  
Growing Pigs ◽  
Modelling Studies ◽  
Porcine Respiratory ◽  
Insight Into

Porcine reproductive and respiratory syndrome (PRRS) is an endemic pig disease in most European countries, causing respiratory distress, fever and growth reductions in growing pigs and increased litter mortality in sows. The disease is characterised by exceptionally long-term viral persistence within the host, a weak innate host immune response and delayed adaptive host immune response, and large between animal variation in the immune response (Murtaugh et al., 2004). Although numerous in-vitro and in-vivo studies produced valid insight into the fine details of the virus dynamics and its interaction with the host’s immune response, several fundamental questions concerning the role of diverse immune components and host genetics remain unanswered. In this study mathematical models were developed to investigate the role of diverse processes caused by the virus or the immune response on the infection characteristics.

scholarly journals Human Corneal Cells and Other Fibroblasts Can Stimulate the Appearance of Herpes Simplex Virus from Quiescently Infected PC12 Cells

1999 ◽  
Vol 73 (5) ◽  
pp. 4171-4180 ◽  
Author(s):  
Ying-Hsiu Su ◽  
Rupalie L. Meegalla ◽  
Rohini Chowhan ◽  
Christopher Cubitt ◽  
John E. Oakes ◽  
...  
Keyword(s):  
Gene Expression ◽  
Herpes Simplex Virus ◽  
Herpes Simplex ◽  
Pc12 Cells ◽  
Immunofluorescent Staining ◽  
Pcr Analysis ◽  
Simplex Virus ◽  
Hsv 1

ABSTRACT A two-cell system for the stimulation of herpes simplex virus type 1 (HSV-1) from an in vitro model of long-term (quiescent) infection is described. Rat pheochromocytoma (PC12) cells differentiated with nerve growth factor were infected with HSV-1 strain 17. Little, if any, cytotoxicity was observed, and a quiescent infection was established. The long-term infection was characterized by the absence of all detectable virus in the culture medium and little, if any, detectable early or late viral-gene expression as determined by reverse transcriptase PCR analysis. The presence of HSV-1 DNA was determined by PCR analysis. This showed that approximately 180 viral genomes were present in limiting dilutions where as few as 16 cells were examined. The viral DNA was infectious, since cocultivation with human corneal fibroblasts (HCF) or human corneal epithelial cells (HCE) resulted in recovery of virus from most, if not all, clusters of PC12 cells. Following cocultivation, viral antigens appeared first on PC12 cells and then on neighboring inducing cells, as determined by immunofluorescent staining, demonstrating that de novo viral protein synthesis first occurred in the long-term-infected PC12 cells. Interestingly, the ability to induce HSV varied among the cell lines tested. For example, monkey kidney CV-1 cells and human hepatoblastoma HepG2 cells, but not mouse neuroblastoma cells or undifferentiated PC12 cells, mediated stimulation. This work thus shows that (i) quiescent HSV infections can be maintained in PC12 cells in vitro, (ii) HSV can be induced from cells which do not accumulate significant levels of latency-associated transcripts, and (iii) the activation of HSV gene expression can be induced via neighboring cells. The ability of adjacent cells to stimulate HSV gene expression in neuron-like cells represents a novel area of study. The mechanism(s) whereby HCF, HCE, and HepG2 and CV-1 cells communicate with PC12 cells and stimulate viral replication, as well as how this system compares with other in vitro models of long-term infection, is discussed.

scholarly journals Natural Polyphenol-Containing Gels against HSV-1 Infection: A Comparative Study

Nanomaterials ◽  
2022 ◽  
Vol 12 (2) ◽  
pp. 227
Author(s):  
Mariaconcetta Sicurella ◽  
Maddalena Sguizzato ◽  
Paolo Mariani ◽  
Alessia Pepe ◽  
Anna Baldisserotto ◽  
...  
Keyword(s):  
Cell System ◽  
X Ray Diffraction ◽  
Alternative Approach ◽  
Natural Polyphenol ◽  
Golden Standard ◽  
Simplex Virus ◽  
Hsv 1

Herpes simplex virus type 1 infection commonly affects many people, causing perioral sores, as well as severe complications including encephalitis in immunocompromised patients. The main pharmacological approach involves synthetic antiviral drugs, among which acyclovir is the golden standard, often leading to resistant virus strains under long-term use. An alternative approach based on antiviral plant-derived compounds, such as quercetin and mangiferin, demonstrated an antiviral potential. In the present study, semisolid forms for cutaneous application of quercetin and mangiferin were designed and evaluated to treat HSV-1 infection. Phosphatidylcholine- and poloxamer-based gels were produced and characterized. Gel physical–chemical aspects were evaluated by rheological measurements and X-ray diffraction, evidencing the different thermoresponsive behaviors and supramolecular organizations of semisolid forms. Quercetin and mangiferin diffusion kinetics were compared in vitro by a Franz cell system, demonstrating the different gel efficacies to restrain the polyphenol diffusion. The capability of gels to control polyphenol antioxidant potential and stability was evaluated, indicating a higher stability and antioxidant activity in the case of quercetin loaded in poloxamer-based gel. Furthermore, a plaque reduction assay, conducted to compare the virucidal effect of quercetin and mangiferin loaded in gels against the HSV-1 KOS strain, demonstrated the suitability of poloxamer-based gel to prolong the polyphenol activity.

scholarly journals TMOD-32. GL261 LUCIFERASE-EXPRESSING CELLS ELICIT AN ANTI-TUMOR IMMUNE RESPONSE: AN EVALUATION OF MURINE GLIOMA MODELS

2019 ◽  
Vol 21 (Supplement_6) ◽  
pp. vi269-vi270
Author(s):  
Victoria Sanchez ◽  
John Lynes ◽  
Stuart Walbridge ◽  
Xiang Wang ◽  
Nancy Edwards ◽  
...  
Keyword(s):  
Immune Response ◽  
Inflammatory Response ◽  
Tumor Growth ◽  
Median Survival ◽  
In Vivo Evaluation ◽  
Kaplan Meier ◽  
Long Term Survivors

Abstract Preclinical models that reliably recapitulate the immunosuppressive properties of human gliomas are essential to assess immune-based therapies. Intracranially injected GL261 cells are widely used as an immunocompetent animal model of glioma, but it is common practice to transfect these with luciferase to facilitate tumor monitoring during treatment. Our group has previously shown that the luciferase-expressing GL261 Red-FLuc cells create an inflammatory response when implanted intracranially. Now, we additionally explore the inflammatory response of GL261-Luc2 cells and demonstrate a similar host immune response occurs with this model as well. In our in vivo evaluation, C57BL/6 mice underwent stereotaxic, intracranial implantation with GL261, GL261 Red-FLuc or GL261-Luc2 cells at doses of 5x104cells/5mL or 3x105cells/5uL.MRIs were performed to monitor relative tumor growth. To assess intrinsic differences between cell lines, in vitro cytokine profiles were evaluated by proteome microarray. Kaplan-Meier survival analyses demonstrated median survival for mice implanted with GL261 cells at 5x104cells was 18 to 21 days. The GL261-Red FLuc implanted mice cells did not reach median survival at either tumor dose with greater than 60% of mice termed long-term survivors. Finally, mice injected with GL261-Luc2 cells at 3x105cells reached median survival at 23 days, but median survival was significantly prolonged for mice implanted with GL261-Luc2 at a dose of 5x104cells (37 days, with 40% becoming long-term survivors) compared to GL261 implanted mice. MRIs reveal differences in tumor growth that correspond with the differences in median survival between groups. In addition, proteomic analyses revealed significantly elevated inflammatory cytokines such as IFN-gamma, IL-7 and TNF-alpha in the supernatants of the GL261 Red-FLuc cells and GL261-Luc2 cells. Further immune characterization is ongoing. Our data suggests that GL261 Red-FLuc and GL261-Luc2 murine models elicit an anti-tumor immune response by increasing pro-inflammatory modulators which stimulate the tumoricidal function of immune cells in the tumor microenvironment.

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