In Vivo Chemotherapy Protection and Efficacy of Multidrug Resistance (MDR-1) Gene Transfer in a Patient with Refractory Non-Hodgkin’s Lymphoma (NHL).

Blood ◽  
2005 ◽  
Vol 106 (11) ◽  
pp. 3054-3054
Author(s):  
Pamela S. Becker ◽  
Adrianne N. Hanks ◽  
Ying Ping Yu ◽  
Ann Marie Ceredona ◽  
William V. Walsh ◽  
...  
Keyword(s):  
Nested Pcr ◽  
Insertional Mutagenesis ◽  
Insertion Site ◽  
Inverse Pcr ◽  
Definitive Treatment ◽  
Transduction Efficiency ◽  
High Dose ◽  
Cd34 Cells ◽  
Mdr 1

Abstract We report clinical and molecular data for the first subject enrolled in our gene therapy clinical trial. This patient had follicular transformed large cell lymphoma that relapsed with a large mediastinal mass >2 years after CHOP, and despite 3 cycles of ICE, had persistent residual disease. After mobilization with rituximab, cyclophosphamide (Cy), and G-CSF, 3X106 CD34+ cells/kg were cryopreserved directly. CD34+ cells from a 2nd apheresis product were transduced with retroviral vector, SF1m (SFFV LTRs, MESV leader and MDR-1 cDNA), in fibronectin CH-296 peptide (Retronectin) coated bags, serum-free, in cytokines. The final product was 95% CD34+, 96% viable, and represented 5.5X106 CD34+ cells/kg. Post transduction, 11% of the cells effluxed rhodamine (a function of the MDR-1 encoded p-glycoprotein), corresponding to 20–30% transduction efficiency due to production of alternatively spliced mRNAs, as compared to 1% of the non-transduced cells. The patient received low dose (100 cGy) total body irradiation (TBI) followed by infusion of the transduced (Tr) cells, then 4 cycles of vincristine, dose escalating VP-16, and prednisone. The platelet count nadir improved with each cycle (18, 65, 98, and 131 K after cycles 1, 2, 3, 4) as did the ANC nadir, 100 for cycle 1 v. 640 for cycle 4, likely due to selection and expansion of MDR-1 expressing cells. The patient was in CR prior to a 2nd myeloablative transplant of the original unmanipulated cells after high dose Cy/TBI (1200cGy). For 21 months (m) after infusion of Tr cells, the patient remained well, until he suffered a fatal myocardial infarction. The post mortem showed no evidence of lymphoma or other malignancy. PB and bone marrow (BM) samples collected every 1–3m were examined by RTQ-PCR and nested PCR for presence of the transgene. Tr cells were detected by RTQ-PCR as early as 2 weeks post-transplant. CFU assays of BM samples collected 1, 3, and 6m after transplant demonstrated increasing resistance to doxorubicin with increased time after Tr cell infusion. The transgene was not detected by nested PCR in colonies 1m after initial transplant, however, after 3m, the MDR-1 transgene was present in 3.1% of the colonies and in 10.2% of colonies after 6m. The more sensitive RTQ-PCR showed 16.3%, 25.5%, and 23.9% colonies positive at 1,3, and 6m after transplant. Thus far, insertion site analysis by inverse PCR revealed 13 products representing insertions in non-coding sequence of chromosomes 4, 12, 16, and 20; more sensitive analysis is in progress. Nested and RTQ-PCR of PB and BM samples from 6 weeks and on CFU from BM 14m after the 2nd transplant were negative. RCR safety testing was negative by RTQ-PCR for retroviral 4070A and VSVG envelopes. Thus, autologous engraftment of genetically modified cells with MDR-1 was achieved with 100 cGy TBI in a patient with poor risk NHL who subsequently achieved ‘myeloprotection’ with debulking chemotherapy. Definitive treatment with Cy/TBI and autologous infusion of unmodified cells provided a unique safety feature to eliminate in vivo residual transduced cells, protecting against the risk of insertional mutagenesis.

scholarly journals Retroviral Gene Transduction of Adult Peripheral Blood or Marrow-Derived CD34+ Cells for Six Hours Without Growth Factors or on Autologous Stroma Does Not Improve Marking Efficiency Assessed In Vivo

Blood ◽  
1997 ◽  
Vol 89 (11) ◽  
pp. 4040-4046 ◽  
Author(s):  
R.V.B. Emmons ◽  
S. Doren ◽  
J. Zujewski ◽  
M. Cottler-Fox ◽  
C.S. Carter ◽  
...  
Keyword(s):  
Growth Factors ◽  
Peripheral Blood ◽  
Mononuclear Cells ◽  
Transduction Efficiency ◽  
High Dose ◽  
Retroviral Transduction ◽  
Cd34 Cells ◽  
Marrow Stroma ◽  
Conditioning Therapy

Abstract Our previous work in patients undergoing autologous transplant for multiple myeloma (MM) or breast cancer (BC) has shown that retroviral transduction of adult CD34+ cells for 72 hours in the presence of interleukin-3 (IL-3), IL-6, and stem cell factor (SCF ) resulted in .01% to 1% long-term marking of peripheral blood and marrow cells (Blood 85:3948, 1995). In this study we compare these previous studies to transduction with no added growth factors, previously shown to result in higher levels of marking in children (Lancet 342:1134, 1993) or transduction in the presence of an autologous stromal layer. Peripheral blood (PB) mononuclear cells were collected via apheresis after high-dose cyclophosphamide and granulocyte colony-stimulating factor. Bone marrow (BM) was also harvested in all patients. One third of both BM and PB collections were enriched for CD34+ cells and transduced with one of two marking vectors containing the neomycin-resistance gene to distinguish cells originating from BM and PB posttransplantation. Cells from 3 MM and 2 BC patients were transduced without growth factors for 6 hours and cells from 2 MM and 2 BC patients were transduced in the presence of autologous marrow stroma. Immediately posttransduction, the percentage of Neo-resistant PB and BM progenitors (colony-forming units) were: 0% to 19% in the 6-hour no growth factor group and 0% to 36% in the autologous stroma group. After conditioning therapy, both transduced and untransduced PB and BM fractions were infused into the patients. Semi-quantitative nested DNA polymerase chain reaction was performed on total, mononuclear, and granulocyte fractions of PB and BM at 1, 3, 6, 9, 12, and 18 months. Poor marking has been observed in both groups, with no consistently positive patients. These results compare unfavorably with our prior experience using growth factors during transduction. Further optimization of transduction conditions and vectors needs to be developed to improve transduction efficiency of adult human repopulating hematopoietic cells.

The Impact of Different Mobilization Strategies in the Setting of Multiple Myeloma

Blood ◽  
2019 ◽  
Vol 134 (Supplement_1) ◽  
pp. 3254-3254
Author(s):  
Francesco Mazziotta ◽  
Gabriele Buda ◽  
Nadia Cecconi ◽  
Giulia Cervetti ◽  
Lorenzo Iovino ◽  
...  
Keyword(s):  
Multiple Myeloma ◽  
Stem Cell ◽  
Partial Response ◽  
Peripheral Blood ◽  
High Dose ◽  
Roc Curve Analysis ◽  
Cd34 Cells ◽  
Significant Difference ◽  
The Impact

INTRODUCTION Multiple myeloma (MM) is considered an incurable disease. Despite the introduction of novel agents allowed deeper response, high-dose chemotherapy and autologous stem cell transplantation (ASCT) remain the standard of care for patients (pts) in good clinical conditions. The most used strategies to mobilize stem cells from bone marrow (BM) into peripheral blood are high-dose cyclophosphamide (HD-CTX) plus G-CSF and G-CSF plus plerixafor (G-CSF+P). The goal of this retrospective study is to investigate whether the two different mobilization strategies have an impact on the clearance of monoclonal PCs in the apheresis products and on pts' outcome. PATIENTS AND METHODS We analyzed 62 pts (median age 61, range 41-75, 37 males and 25 women) diagnosed with MM and treated with ASCT between Mar 2014 and Mar 2018 at our Hematology Division (Pisa, Italy). All pts received induction therapy with at least 4 cycles of bortezomib, thalidomide and dexamethasone (VTD). 9/62 pts obtained a less than partial response (PR) and received lenalidomide-based regimens. After induction, 8 (12,9%) pts achieved complete remission (CR), 26 (41,9%) were in PR, 28 (45,2%) obtained a very good partial response (VGPR). 43/62 fit pts received HD-CTX (2-3 g/sqm) on day 1 followed by G-CSF (30 MU/day) started on day 4 until day 7, increased to 60 MU/day from day 8 until the end of apheresis. In 19/62 pts, after 4 days of G-CSF (60 MU/day) administration and not sufficient mobilization, we added plerixafor (0,24 mg/kgbw) for up to 4 consecutive days. In 43/62 pts we collected apheresis samples (10μl) analyzed through flow citometry to enumerate clonal residual PCs. The panel used to asses clonality included: CD138 Per-Cp, CD38 APC, CD19 PE-Cy7, CD45 APC-Cy7, cytoplasmic immunoglobulin K chain and L chain. RESULTS At the end of the peripheral blood stem cell (PBSC) collection, pts treated with HD-CTX presented a higher CD34+ absolute count (p=0.0489) and achieved the threshold of 5x106 CD34+ cells/kgbw in a significantly (p=0.006) higher percentage. We found a nearly significant (p=0.0517) lower count of CD34+ PBSCs in pts who received lenalidomide-based regimens before the mobilization. Performing flow citometry on apheresis samples, we observed that the number of the harvested clonal PCs showed a significant correlation (p=0.0115) with the occurrence of post-ASCT relapse. ROC curve analysis investigating the predictive effect of the number of pathological PCs on disease relapse showed an area under the curve of 0,6978 (95% CI 0.5392-0.8564; p=0.0267). Neither BM residual PCs detectable on BM biopsies performed before apheresis (r=-0.1323; p=0.609) nor the type of mobilization scheme (p=0.707) had an impact on the proportion of clonal PCs in the graft. Additionally, we did not observe any statistically significant difference in progression free- (PFS) (p=0.8276) and overall survival (OS) (p=0.2475) between the HD-CTX and G-CSF+P groups. DISCUSSION PBSC mobilization has a succession rate > 85%. Despite the use of HD-CTX to increase PBSC yields and decrease tumor burden, there is not clear evidence of a superior mobilization strategy. Additionally, HD-CTX has a not negligible toxicity and approximately 10% of the pts require hospitalization. Conversely, G-CSF+P is a safe and effective approach also in poor mobilizers. In our study, we observed a significative difference in the apheresis yields (p=0.0489) and in the percentage of pts who achieved the threshold of 5x106 CD34+ cells/kgbw (p=0.006) in favor of HD-CTX. Additionally, the detection of harvested residual clonal PCs could be a promising strategy to recognise pts more likely to relapse after ASCT. Nonetheless, we failed to demonstrate a superior effect of HD-CTX in the clearance of harvested clonal PCs, in agreement with the absence of a different pts' outcome amongst the two mobilization strategies. In conclusion, the choice between the two regimens is challenging and requires careful consideration of multiple factors. Overall, young fit pts, especially in the high-risk setting, should be treated with all appropriate modalities including chemiomobilization followed by double-ASCT. Conversely, in pts candidate to a single-ASCT it is reasonable to use G-CSF+P, since HD-CTX does not improve PFS and OS and add toxicity. The absence of an in-vivo purging effect on apheresis products of chemiomobilization further strengthens a chemotherapy-free mobilization. Disclosures Galimberti: Roche: Speakers Bureau; Celgene: Speakers Bureau; Novartis: Speakers Bureau.

Safe and Efficient Expansion of Human HSC with Sendai Virus Vector Expressing HoxB4 in Fetal Sheep.

Blood ◽  
2009 ◽  
Vol 114 (22) ◽  
pp. 693-693
Author(s):  
Shigeo Masuda ◽  
Tomoyuki Abe ◽  
Makoto Inoue ◽  
Mamoru Hasegawa ◽  
Satoshi Hayashi ◽  
...  
Keyword(s):  
Bone Marrow ◽  
Insertional Mutagenesis ◽  
Sendai Virus ◽  
Retroviral Vectors ◽  
Transduction Efficiency ◽  
Control Group ◽  
Fetal Sheep ◽  
Hematopoietic Stem ◽  
Colony Pcr ◽  
Cd34 Cells

Abstract Abstract 693 Background: Homeobox B4 (HoxB4) has been shown to be a potent stem cell self-renewal gene, especially in hematopoietic stem cells (HSC). Accumulating evidence from murine studies indicates that the overexpression of HoxB4 enhances in vivo and ex vivo expansion of HSC. Although no leukemia has been observed after transplantation of HoxB4-transduced cells in murine models, the study using large animals such as dogs and non-human primates with retroviral vectors expressing HoxB4 showed the frequent development of leukemia. Regarding retroviral vectors expressing HoxB4, there is another concern, that is, insertional leukemogenesis, which has been elucidated in the hematopoietic stem cell gene therapy for X-SCID. To avoid the insertional mutagenesis, other vectors may be considered, including Epstein-Barr nuclear antigen (EBNA)-1 based episomal vectors or the transposon; however, problems are left, i.e. low transduction efficiency with EBNA vectors and unclear safety with transposon vectors. To avoid both the persistent HoxB4 expression and insertional mutagenesis leading to leukemogenesis, we have developed a new type of Sendai virus (SeV) vector; it lacks the polymerase gene, namely P-defective SeV (SeV/δP) vector. SeV is an enveloped virus with a non-segmented, negative-stranded RNA genome. SeV-based vectors are non-integrating, cytoplasmic vectors. They replicate exclusively in the cytoplasm of transduced cells, and do not go through a DNA phase; therefore, there is no concern about the unwanted integration of foreign sequences into chromosomal DNA of the host. We have previously shown that the transduction efficiency of human CD34+ cells with the SeV vector was very high; around 70% (100 multiplicity of infections). On the other hand, SeV/δP vectors are incapable of self-replication, thus enabling transient gene expression without spoiling their ability to efficiently transduce CD34+ cells. Here, using the SeV/δP vector expressing HoxB4 (SeV/δP/HoxB4 vector), we examined the effectiveness and safety of human HSC expansion after in utero transplantation to fetal sheep. Methods: After enrichment of CD34+ cells from cryopreserved human umbilical cord blood, these cells were repeatedly exposed to SeV/δP/HoxB4 vector every 24 h for 4 days. The transduced cells (3.2–11.7 × 105) were transplanted into the abdominal cavity of fetal sheep at 45–50 gestational days (full term, 147 days) that have premature immune system (HoxB4 group, n = 4; control group, n = 4). The engraftment of hematopoietic cells derived from human HSC in the lambs after birth was quantitatively evaluated by colony PCR of the bone marrow. The development of leukemia was assessed by regular sampling of peripheral blood and bone marrow. Results: The human–sheep chimeric ratio in the bone marrow of HoxB4 group was calculated 4.8-times higher than that of control group after birth, as assessed by colony PCR. The SeV genome was no longer detectable in the bone marrow and peripheral blood of lambs as assessed by RNA-PCR, confirming the SeV vectors were cleared. No leukemia developed in any of the sheep in either group at present (at 12 months after transplantation). Conclusion: The SeV/δP vector would be suitable for transient expression of HoxB4 in human CD34+ cells, enabling 4.8-times expansion of human HSC as assessed by their repopulating ability in sheep. The expansion of human HSC with the SeV vector was comparable to that with HoxB4-retroviral vectors. In addition, the SeV/δP vector is free of concern about transgene-related and insertional leukemogenesis and should be safer than retroviral vectors. Disclosures: No relevant conflicts of interest to declare.

Lentiviral gene transfer into primary and secondary NOD/SCID repopulating cells

Blood ◽  
2000 ◽  
Vol 96 (12) ◽  
pp. 3725-3733 ◽  
Author(s):  
Niels-Bjarne Woods ◽  
Cecilia Fahlman ◽  
Hanna Mikkola ◽  
Isao Hamaguchi ◽  
Karin Olsson ◽  
...  
Keyword(s):  
Stem Cells ◽  
Cord Blood ◽  
High Efficiency ◽  
Lentiviral Vectors ◽  
Inverse Pcr ◽  
Transduction Efficiency ◽  
Pcr Analysis ◽  
Hematopoietic Stem ◽  
Cd34 Cells ◽  
Cord Blood Cd34

The ability of lentiviral vectors to transfer genes into human hematopoietic stem cells was studied, using a human immunodeficiency virus 1 (HIV-1)–derived vector expressing the green fluorescence protein (GFP) downstream of the phosphoglycerate kinase (PGK) promoter and pseudotyped with the G protein of vesicular stomatitis virus (VSV). High-efficiency transduction of human cord blood CD34+cells was achieved after overnight incubation with vector particles. Sixteen to 28 percent of individual colony-forming units granulocyte-macrophage (CFU-GM) colonies derived from cord blood CD34+ cells were positive by polymerase chain reaction (PCR) for the GFP gene. The transduction efficiency of SCID-repopulating cells (SRC) within the cord blood CD34+population was assessed by serial transplantation into nonobese diabetic/severe combined immunodeficient (NOD/SCID) mice. When 400 000 cord blood CD34+ cells were transplanted into primary recipients, all primary and secondary recipients contained and expressed the transgene. Over 50% of CFU-GM colonies derived from the bone marrow of these primary and secondary recipients contained the vector on average as determined by PCR. Transplantation of transduced cells in limiting dilution generated GFP+ lymphoid and myeloid progeny cells that may have arisen from a single SRC. Inverse PCR analysis was used to amplify vector-chromosomal junctional fragments in colonies derived from SRC and confirmed that the vector was integrated. These results show that lentiviral vectors can efficiently transduce very primitive human hematopoietic progenitor and stem cells.

New Thoughts about the Cause and Treatment of the Severe Ocular Manifestations of Graves' Disease

1974 ◽  
Vol 19 (4) ◽  
pp. 165-169 ◽  
Author(s):  
I. R. McDougall ◽  
J. P. Kriss
Keyword(s):  
Corticosteroid Treatment ◽  
Immunosuppressive Drugs ◽  
Definitive Treatment ◽  
Antithyroid Drugs ◽  
Graves Disease ◽  
High Dose ◽  
Ocular Manifestations ◽  
Dose Corticosteroid

The ocular manifestations of Graves' disease are probably due to autoimmunity. Thyroglobulin and complexes of thyroglobulin and antithyroglobulin have a predilection to attach to extraocular muscle membranes in vitro. It is suggested that in vivo these molecules are directed, probably via lymphatics, to the orbit where they attach to the muscle cell membranes. B lymphocytes, which have been shown to be capable of combining with both thyroglobulin and complexes, attach on to these molecules. The tissue damage is probably caused by the complexes, the lymphocytes, or both. Treatment of hyperthyroidism in a patient with ophthalmopathy should be cautious and with antithyroid drugs. This will reduce, though not completely eliminate, the possibility of a post-treatment exacerbation. If for some reason definitive treatment of the hyperthyroidism is essential, worsening of the ophthalmopathy may be prevented by prescribing steroids or immunosuppressive drugs at the time of surgical or radioiodine treatment. When progressive eye disease has arisen, orbital radiotherapy is a safe effective alternative to high dose corticosteroid treatment or surgical decompression.

scholarly journals Simultaneous in vivo Pharmacokinetics and Pharmacodynamics of TDF Intravaginal Ring during High-dose Vaginal SHIV Challenge in Pigtail Macaques

2021 ◽  
Author(s):  
Katarina Klotnik Halavaty ◽  
Adina Ott ◽  
Danijela Maric ◽  
Jonathan Su ◽  
Edgar Matias ◽  
...  
Keyword(s):  
Reproductive Tract ◽  
Female Reproductive Tract ◽  
Transduction Efficiency ◽  
High Dose ◽  
Reporter System ◽  
Virus Challenge ◽  
Drug Concentrations ◽  
Intravaginal Ring ◽  
Pigtail Macaques

The demonstration of complete protection of macaques in a repeated low dose virus challenge by a tenofovir disoproxil fumarate (TDF) intravaginal ring (IVR) and the success of the dapivirine IVR in clinical trials highlighted the potential of IVRs as pre-exposure prophylaxis against HIV. Efficacy of TDF ring was not investigated in sexually active women. Our understanding of the mechanisms of protection is limited. To address this knowledge gap, we performed simultaneous pharmacokinetic and pharmacodynamic analysis of a TDF-IVR at the site of SIV challenge in pigtail macaques at the anatomical and cellular level. Specifically, we challenged TDF-IVR administered pigtail macaques with a single high dose of a non-replicative SIV-based vector containing a dual reporter system that helped us to identify the earliest targets of SIV infection within the mucosa. Two and three days after challenge, the macaques were euthanized and tenofovir (TFV) concentrations were measured in the female reproductive tract (FRT) by HPLC-MS/MS to correlate drug concentrations and SIV-vector transduction efficiency. TFV formed a gradient through the mucosal tissue, with the highest concentrations near the ring, in the upper vagina and endocervix. Despite this, several transduction events were identified with the most common sites being in the ovaries. Moreover, proviral DNA was detected in the cervix and vagina. Thus, our studies demonstrate an uneven distribution of TFV in the FRT of macaques after release from a TDF-IVR that leads to incomplete FRT protection from high viral dose challenge.

scholarly journals Azacitidine and Ascorbate Inhibit the Competitive Outgrowth of Human TET2 Mutant HSPCs in a Xenograft Model of Pre-Leukemia

Blood ◽  
2018 ◽  
Vol 132 (Supplement 1) ◽  
pp. 887-887
Author(s):  
Yusuke Nakauchi ◽  
Daniel Thomas ◽  
Rajiv Sharma ◽  
M. Ryan Corces ◽  
Andreas Reinisch ◽  
...  
Keyword(s):  
Colony Formation ◽  
Erythroid Differentiation ◽  
High Dose ◽  
Myeloid Lineage ◽  
Hematopoietic Stem ◽  
Nsg Mice ◽  
Base Pair Deletion ◽  
Cd34 Cells

Abstract The TET2 gene is frequently mutated in pre-leukemic hematopoietic stem cells in human acute myeloid leukemia (AML) and encodes for an enzyme that catalyzes the conversion of DNA 5-methylcytosine to 5-hydroxymethylcytosine. Recent studies suggest that (i) the product of this reaction can be enhanced using high dose ascorbate, and (ii) formation of the substrate 5-methylcytosine can be blocked with azacitidine. To understand the mechanisms of TET2 mutation-driven leukemogenesis, we developed two CRISPR/Cas9 approaches to disrupt the TET2 gene in primary human CD34+ HSPCs to mimic TET2-mutated pre-leukemia. First, in "Hit & Run," we use Cas9 with two single-guide RNAs (sgRNAs) to disrupt the TET2 gene within exon 3 (average indel frequencies=94.3%). Second, we using homology directed repair (HDR) of Cas9-mediated dsDNA breaks to disrupt the TET2 gene within exon 7 by inserting a GFP expression cassette to generate in vivo traceable cells. Thus, we have developed a tractable and cell-traceable model that recapitulates TET2-mutated pre-leukemia and clonal hematopoiesis. First, we examined the effects of TET2 disruption on human erythroid differentiation in vitro by culturing bulk CD34+ cells for 10 days under conditions that promote erythroid differentiation. Both Hit & Run and HDR (GFP+) TET2 disruption decreased CD71+CD235+ erythroid differentiation compared to control cells. Exposure to high dose ascorbate partially rescued the erythroid defect in TET2-disrupted cells (Hit & Run, n=3 independent experiments, p<0.02). This underscores the importance of TET2 in promoting erythroid differentiation and suggests TET2 mutations can exert a myeloid lineage skewing sensitive to ascorbate. Next, we investigated the effects of TET2 disruption on hematopoietic colony formation in methylcellulose. Both methods resulted in increased numbers of TET2-disrupted colonies compared to control (Hit & Run, n=4 independent experiments, p<0.0001; HDR, n=3 independent experiments, p<0.0001) and absence of erythroid BFU-E. Interestingly, analysis of indels in Hit & Run colonies showed that serial replating enriched for a 65 base pair deletion that results in a null allele, suggesting that TET2-disrupted cells outcompete normal HSPCs in vitro. Next, we transplanted control or TET2-disrupted Hit & Run CD34+ cells into NSG mice. Primary transplantation at 4 months showed no statistical differences in either engraftment rate (human CD45+) or differentiation (T/ B/ Myeloid cells), although the frequency of TET2 indels increased gradually in CD33+ cells. Intriguingly, 36 weeks after secondary transplantation, we detected a marked expansion of human myeloid lineage cells (lymphoid=22.1%, myeloid=73.0%, Mann-Whitney U, p=0.0485) and a particular increase in a CMML-like CD33highCD14+CD16- population. Furthermore, preliminary data from tertiary transplantation (8 weeks after transplantation) indicates persistent myeloid skewing in the bone marrow in some mice and expansion of TET2-mutant cells, suggesting a CMML-like disease. Finally, we used in vivo competition studies to determine if TET2-disrupted HSPCs are selectively targeted by azacitidine or ascorbate treatment compared to controls. NSG mice were intrafemorally transplanted with a one-to-one ratio of control and TET2-disrupted HSPCs, and 4 months later, these mice were treated with azacitidine (2.5mg/kg/dose, i.p. daily on days 1-5 of a 14-day cycle for 2 cycles) or ascorbate (4g/kg/dose, i.p. twice daily for a month). In PBS control treated mice, the percentage of TET2-disrupted cells increased from 29.3 to 71.6 over 4 weeks. Intriguingly, azacitidine slowed the expansion of TET2-disrupted cells in evaluable mice (delta increase of 42% in PBS vs 5% in azacitidine, p=0.036), but did not eradicate established TET2 pre-leukemia in all evaluable mice. Similarly, high dose ascorbate treatment slowed the rate of expansion to a lesser degree (delta increase of 42% in PBS vs 18.3% in ascorbate, p=0.14). Our data show that TET2 disruption in primary human HSPCs blocked erythroid differentiation, increased colony formation and replating, and caused myeloid skewing and a CMML-like disease in vivo after an extended period of time. In this model, azacitidine or ascorbate treatment slowed expansion of TET2-mutant human pre-leukemic clones raising the intriguing possibility of preventing CHIP progression to de novo AML. Disclosures No relevant conflicts of interest to declare.

TRIM5α Variation Affects Lentiviral Transduction Efficiency for Long-Term Hematopoietic Repopulating Cells in a Rhesus Stem Cell Transplantation Model

Blood ◽  
2011 ◽  
Vol 118 (21) ◽  
pp. 2056-2056
Author(s):  
Naoya Uchida ◽  
Matthew M. Hsieh ◽  
Aylin C. Bonifacino ◽  
Sandra D. Price ◽  
Allen E. Krouse ◽  
...  
Keyword(s):  
Stem Cell ◽  
Cell Lines ◽  
Transduction Efficiency ◽  
Gfp Expression ◽  
Lentiviral Transduction ◽  
Cd34 Cells ◽  
Hiv 1

Abstract Abstract 2056 The Tripartite Motif-containing protein 5 α (TRIM5α) is thought to play an important role in restricting retroviral infection among species in nature, and restricts HIV-1 based lentiviral transduction of rhesus hematopoietic repopulating cells. We previously developed a chimeric HIV-1 based lentiviral vectors (χHIV vectors) which includes a simian immunodeficiency virus (SIV) capsid in place of the HIV-1 capsid to circumvent this restriction (J Virol. 2009). Transduction efficiency, however, remained highly variable between animals. In this study, we sought to evaluate the effects of rhesus TRIM5α polymorphisms on lentiviral transduction of rhesus hematopoietic repopulating cells. To evaluate whether rhesus TRIM5α polymorphisms influence the efficiency of lentiviral transduction, we transduced cell lines expressing 6 different rhesus TRIM5α types (Mamu-1, -2, -3, -4, -5, and TrimCyp) with eGFP-encoding HIV1, χHIV, and SIV vectors (Figure). Among all TRIM5α cell lines, transgene expression rates (%GFP) from the χHIV vector fell between that of the HIV-1 vector and that of the SIV vector. For the χHIV and SIV vectors, transduction efficiency was reduced in Mamu-1, -2, and -3 (p<0.01) expressing cell lines when compared to that of control cells. For the HIV-1 vector, there was a reduction in %GFP among all TRIM5α types (p<0.01). These results suggest that both the χHIV and SIV vectors escape restriction through rhesus TRIM5α Mamu-4, -5, and TrimCyp. We then analyzed 16 rhesus macaques who were transplanted with CD34+ cells transduced with the χHIV vector. We evaluated %GFP in granulocytes and lymphocytes 6 months after transplantation, as %GFP expression has been found to plateau in the peripheral blood at 6 months. Transduction efficiency of rhesus CD34+ cells was also evaluated in vitro at the time of transplant based on %GFP expression. For statistical analysis, we assessed factors that potentially affect transduction efficiency, including age, sex, weight, total number of mobilized CD34+ cells, cytokine mobilization regimen (G-CSF & stem cell factor (SCF) vs. G-CSF & plerixafor), cell density during transduction, and TRIM5α polymorphisms. Multivariable analysis demonstrated that TRIM5α type Mamu-4 (50.9±19.0% vs. 26.6±16.7%, p=0.04) as well as mobilization regimen (48.5±17.4% vs. 12.7±7.1%, p=0.01) affected CD34+ cell transduction efficiency in vitro. TRIM5α Mamu-4 only showed significant effects on %GFP among lymphocytes in vivo (23.7±17.9% vs. 5.3±3.1%, p=0.046). When analyzing the %GFP among granulocytes in vivo, there was a significant correlation with weight (p=0.01), mobilized CD34+ cell number (p=0.02), TRIM5α type Mamu-4 (29.3±25.4% vs. 8.4±6.0%, p=0.03), and mobilization regimen (25.4±24.1% vs. 7.5±3.0%, p=0.04). If in vitro %GFP is included in the analysis, both %GFP among granulocytes and lymphocytes are strongly affected (<0.001) and TRIM5α type Mamu-4 and mobilization regimen are no longer significant. Univariate analysis showed similar tendencies regarding %GFP among granulocytes and lymphocytes. Taken together, our data suggest that TRIM5α type Mamu-4, mobilization regimen (G-CSF & SCF), and CD34+ cell transduction efficiency in vitro are important factors that can predict higher %GFP in granulocytes and lymphocytes 6 months following transplantation. In summary, rhesus TRIM5α polymorphisms (especially type Mamu-4) play an important role in allowing efficient lentiviral transduction of long-term repopulating cells and contribute to the variable results observed in the rhesus hematopoietic stem cell gene therapy model. Disclosures: No relevant conflicts of interest to declare.

Down-Modulating p18Ink4c for Ex Vivo Expansion of Hematopoietic Stem Cells.

Blood ◽  
2004 ◽  
Vol 104 (11) ◽  
pp. 1687-1687
Author(s):  
Tao Cheng ◽  
Hui Yu ◽  
Donna Shields ◽  
Youzhong Yuan ◽  
Hongmei Shen
Keyword(s):  
Ex Vivo ◽  
The Self ◽  
Transduction Efficiency ◽  
Rt Pcr ◽  
Hematopoietic Stem ◽  
Human Cd34 ◽  
Cd34 Cells ◽  
Human Hscs

Abstract Our recent study demonstrated that the cyclin-dependent kinase inhibitor (CKI) p18Ink4c (p18), also an INK4 family protein acting at early G1-phase, exerts its inhibitory role during the self-renewing division of murine hematopoietic stem cells (HSC) in vivo (Nature Cell Biology 2004). Down-modulating p18 may permit enhanced stem cell expansion in vitro, a hypothesis that is now being testing in our laboratory. To provide the proof-of-the concept, we first took advantage of the murine system by testing the in vivo reconstituting ability of cells that had been cultured under the Dexter culture condition for 19 weeks. 2–20x105 cells with non-adherent and adherent populations were transplanted into lethally irradiated hosts. 3 of 7 mice revealed long-term engraftment in the p18−/− transplanted group (0.5–33% engraftment levels) while there was no engraftment in the p18+/+ group (n=7). Moreover, a substantial level (38.6% on average) of long-term engraftments (7 months) in multilineage was achieved in secondary recipients transplanted with the p18−/− cells (n=3), demonstrating the self-renewal potential of the expanded HSCs after the extended period of long-term culture. These data strongly indicate that p18 absence is able to substantially mitigate the differentiating effect of the ex vivo culture conditions on HSCs and therefore offer a strong rationale for targeting p18 in human HSC expansion. P18 mRNA was detected by RT PCR in human CD34+ cells with a higher expression level in the more primitive subset: CD34+CD38−. To explore the possibility of targeting p18 for expanding human HSCs, we have employed the RNA interference (RNAi) technology in CD34+ cord blood cells. We screened a pool of small interfering RNA (siRNA) oligos and three of them were able to effectively reduce p18 expression by 60–80% in 48 hours as assessed by both RNA and protein analyses in human cells. Further, we tested both transient and permanent delivery methods for introducing the RNAi effect in the CD34+CD38− cells. To demonstrate whether the RNAi method would be sufficient to impact the outcome of cell division after a single or limited cell cycle(s), we chose the nucleofector technology and were able to achieve 48.30±11.66% of transduction efficiency with good viability (50.63±9.38%, n=3) in human CD34+ cells. After a single electroporation pulse, we were able to increase by 2-fold the CD34+CD38− cells associated with the same magnitude of increased colony forming activity under culture condition supplemented with SCF, TPO and Flt3. To observe the long-term effect of p18 downregulation in human HSCs, we constructed a p18 short hairpin (shRNA)-expressing lentiviral vector that was engineered to have the mouse U6 promoter upstream of a CMV-EGFP expression cassette. A transduction efficiency of 30–60% was achieved after overnight infection of the human CD34+ cells with the p18 shRNA or with control lentiviral vectors pseudotyped with the VSV-g envelope. 72–96 hours after the transduction, human p18 protein can be knocked down by the p18 siRNA lentivector at near 100% in the HeLa cell line as determined on the western blot, and at more than 50% in human primary CD34+ cells as determined by real time RT PCR. We are currently undertaking further study aimed at assessing the repopulating ability of the transduced human HSCs with lentivirus-mediated p18 shRNA in NOD/SCID mice. Together, these findings suggest that down-modulating p18 might be a feasible approach for manipulating human HSCs ex vivo.

Retrovirus Insertion Site Analysis Following In Vivo Drug Selection in a Phase I Clinical Trial Utilizing G156A MGMT for Enhanced Chemotherapy of Advanced Malignancies.

Blood ◽  
2005 ◽  
Vol 106 (11) ◽  
pp. 3048-3048
Author(s):  
Colin L. Sweeney ◽  
Karen Lingas ◽  
Jane S. Reese ◽  
Susan Flick ◽  
Stanton L. Gerson
Keyword(s):  
Real Time ◽  
Real Time Pcr ◽  
Copy Number ◽  
Insertion Site ◽  
Pcr Analysis ◽  
Site Analysis ◽  
Cd34 Cells ◽  
Vector Copy Number ◽  
Post Infusion

Abstract The G156A mutant of the DNA repair gene O6-methylguanine DNA-methyltransferase (MGMT) confers hematopoietic resistance to O6-benzylguanine (BG) combined with DNA-alkylating agents BCNU or temozolomide, and allows for selective in vivo expansion with drug administration of murine hematopoietic progenitors transduced with G156A MGMT retrovirus. Here we report our latest findings on retroviral vector copy number and insertion site analysis following drug treatment from a Phase I clinical trial utilizing MGMT-mediated chemoprotection for enhanced treatment of advanced solid tumors. Seven patients have entered the trial and 6 have completed the cell infusion process. For all patients, autologous CD34+ cells were transduced ex vivo with an MFG retroviral vector containing the G156A MGMT gene (packaged with PG13 by the National Gene Vector Laboratory, Ken Cornetta, Director) in the presence of the fibronectin fragment CH-296 and the cytokines SCF, Tpo, and Flt-3 ligand for 72 hours with three additions of retroviral supernatant. At 72 hours following patient treatment with BG and BCNU, cells were re-infused. Prior to infusion, the average vector copy number by quantitative real-time PCR analysis for six patients was 0.34 copies per genome, with an average of 24% of CFUs transduced by standard PCR for G156A MGMT, and an average of 9% of CD34+ cells expressing the MGMT transgene by flow cytometry. In one patient with metastatic melanoma we have further analysis of insertions. For this patient, the pre-infusion vector copy number of the bulk CD34+ population was 0.54 copies per genome by real-time PCR, with 27% of CFUs transduced and 8% of CD34+ cells expressing the MGMT transgene prior to infusion. Linear amplification-mediated (LAM)-PCR analysis of retroviral insertion sites in pre-infusion CFUs from this patient confirmed a polyclonal population, with an average of 1.6 retroviral insertions per positive CFU. In this patient, BG (120 mg/m2) and BCNU (33 mg/m2) were administered at 6 weeks post-infusion, and temozolomide (300 mg/day for 5 days) was administered at 13 weeks. Peripheral blood (PB) and bone marrow (BM) granulocyte and mononuclear cells (MNCs) were collected at weeks 5, 11, 15, and 16 for DNA and CFU analysis. Vector copy number at all post-infusion time points was below the limit of detection of SYBR Green probe-based real-time PCR (&lt;100 copies of G156A MGMT per 5000 genomes). LAM-PCR detected the vector in post-treatment samples based on an internal vector control band present in BM MNCs at week 11 and in BM granulocytes at week 16, although specific insertion sites were not detected. Standard PCR revealed 1 out of 100 CFUs from week 11 BM MNCs contained the vector, with 2 out of 30 CFUs from week 15 PB MNCs. LAM-PCR in a subset of week 11 CFUs confirmed a single insertion site present in the same PCR-positive CFU. Sequence analysis of clonal vector insertions pre- and post-infusion is ongoing, and thus far a number of sites have been characterized, adding to the emerging database of clinical retroviral insertions. These are the first data to show emergence of transduced mutant MGMT cells after nonmyeloablative conditioning in humans and suggest that despite a low frequency of vector-marked hematopoietic cells, clinical in vivo drug selection can be observed.

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