N.J. Deb scite author profile

The treatment of inherited metabolic liver diseases by hepatocyte transplantation (HT) would be greatly facilitated if the transplanted normal hepatocytes could be induced to proliferate preferentially over the host liver cells. We hypothesized that preparative hepatic irradiation ( H epatocyte transplantation (HT) is currently being evaluated as a treatment strategy for patients with acute and chronic liver failure and to replace metabolic liver functions in inherited liver diseases. 1 HT has been used in the treatment of inherited metabolic diseases, such as Crigler-Najjar syndrome type I, 2 and for hepatocyte-based ex vivo gene therapy in experimental animals 3-5 as well as in patients with low-density lipoprotein receptor deficiency. 6 However, the clinical application of HT is limited by the availability of human hepatocytes and the number of liver cells that can be transplanted safely at one time. An important consideration is whether a sufficient number of hepatocytes can be engrafted to achieve the desired metabolic correction without causing portal hypertension or other adverse effects. Therefore, a method to induce preferential proliferation of a relatively small number of engrafted hepatocytes in vivo could markedly enhance the applicability of HT.We hypothesized that preparative irradiation of the liver along with a strong mitotic stimulus provided by a maneuver such as partial hepatectomy (PH) should damage the host hepatocyte DNA, causing cell cycle arrest. Subsequently transplanted normal, nonirradiated hepatocytes should proliferate preferentially in response to the

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A novel strategy for in vivo expansion of transplanted hepatocytes using preparative hepatic irradiation and FasL-induced hepatocellular apoptosis

Takahashi

Deb

Kawashita

et al. 2003

Gene Ther

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A strategy for inducing preferential proliferation of the engrafted hepatocytes over host liver cells should markedly increase the benefit of hepatocyte transplantation for the treatment of liver diseases and ex vivo gene therapy. We hypothesized that preparative hepatic irradiation (HIR) to inhibit host hepatocellular regeneration in combination with the mitotic stimulus of host hepatocellular apoptosis should permit repopulation of the liver by transplanted cells. To test this hypothesis, congeneic normal rat hepatocytes were transplanted into UDP-glucuronosyltransferase (UGT1A1)-deficient jaundiced Gunn rats (a model of Crigler-Najjar syndrome type I), following HIR and adenovirus-mediated FasL gene transfer. Progressive repopulation of the liver by engrafted UGT1A1-proficient hepatocytes over 5 months was demonstrated by the appearance of UGT1A1 protein and enzyme activity in the liver, biliary bilirubin glucuronides secretion, and long-term normalization of serum bilirubin levels. This is the first demonstration of massive hepatic repopulation by transplanted cells by HIR and FasL-induced controlled apoptosis of host liver cells.

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Flt3L Therapy following Localized Tumor Irradiation Generates Long-Term Protective Immune Response in Metastatic Lung Cancer: Its Implication in Designing a Vaccination Strategy

Chakravarty

Guha²,

Alfieri³

et al. 2006

Oncology

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Flt3 ligand (Flt3L) therapy that expands dendritic cells in vivo in combination with local tumor radiotherapy (RT) significantly improved survival and induced a long-term tumor-specific immune response in a murine model of Lewis lung carcinoma (3LL). The irradiated tumor cells were able to significantly restimulate the splenocytes of the RT + Flt3L cohort in vitro. The restimulated splenocytes demonstrated increased cytotoxic response, lymphocytic proliferation and elevated levels of Th type I cytokines (IL-2, IL-12, IFN-γ and TNF-α). The combination therapy of RT + Flt3L induced a long-term protective immunity in the disease-free animals. The protective effect was further enhanced when the disease-free animals were vaccinated with irradiated tumor cells. The vaccinated animals had significantly greater protection compared to the nonvaccinated group against subsequent challenge with 3LL cells. Taken together, these results indicate that the release of tumor antigens by irradiated dying tumors and concomitant administration of Flt3L was able to facilitate the generation of a tumor-specific long-term immune response against a poorly immunogenic tumor. This effect was further boosted by vaccination with irradiated tumor cells.

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Liver irradiation: a potential preparative regimen for hepatocyte transplantation

Guha

Parashar

Deb

et al. 2001

International Journal of Radiation Oncology*Biology*Physics

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Amplification of Engrafted Hepatocytes by Preparative Manipulation of the Host Liver

Guha¹,

Deb²,

Sappal

et al. 2001

Artificial Organs

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Scarcity of donor livers is a major obstacle to the general application of hepatocytes for the development of bioartificial liver assist devices as well as intracorporeal engraftment of hepatocytes for the treatment of inherited metabolic diseases. The number of hepatocytes that can be transplanted into the liver safely in a single sitting also limits the utility of this procedure. These limitations could be addressed by providing preferential proliferative advantage to the transplanted cells. Studies using transgenic mouse recipients or donors have indicated that massive repopulation of the host liver by engrafted hepatocytes requires that the transplanted cells are subjected to a proliferative stimulus to which the host hepatocytes cannot respond. Prevention of host hepatocyte proliferation has been achieved by treatment with a plant alkaloid, retrorsine. Because retrorsine is carcinogenic, we have evaluated preparative irradiation for this purpose. The proliferative stimulus may consist of the loss of hepatic mass (e.g., partial hepatectomy, reperfusion injury or induction of Fas-mediated apoptosis by gene transfer) or administration of stimulants of hepatocellular mitosis (e.g., growth factors or thyroid hormone). Potential applications of these preparative manipulations of the host liver include the treatment of inherited metabolic disorders by transplantation of allogeneic hepatocytes, hepatocyte-mediated ex vivo gene therapy, rescuing liver cancer patients from radiation-induced liver damage, and expansion of human hepatocytes in animal livers.

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An AutologousIn SituTumor Vaccination Approach for Hepatocellular Carcinoma. 1. Flt3 Ligand Gene Transfer Increases Antitumor Effects of a Radio-Inducible Suicide Gene Therapy in an Ectopic Tumor Model

et al. 2014

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Hepatocellular carcinoma (HCC) often presents as a diffuse or multifocal tumor making it difficult to control by surgery or radiation. Radio-inducible herpes simplex virus thymidine kinase (HSV-TK) gene therapy has been shown to enhance local tumor control after radiation therapy (RT), while limiting the expression of the transgene in the irradiated tumor tissues. To prevent liver tumor recurrence and control systemic disease while limiting the potential bystander toxicity of HSV-TK therapy, we proposed to stimulate endogenous dendritic cell (DC) proliferation with systemic adenovirus Flt3 ligand (Adeno-Flt3L) gene therapy, followed by primary tumor radiation therapy combined with a radio-inducible HSV-TK gene therapy. We hypothesized that adenovirus-expressing Flt3L gene therapy will stimulate DC proliferation, allowing the upregulated DCs to locally harness tumor antigens released from HSV-TK/RT-treated HCC cells, thereby converting irradiated tumors to an autologous in situ tumor vaccine in mice with primary liver tumors. To test this hypothesis, an expression vector of HSV-TK was constructed under the control of a radio-inducible promoter early-growth response (Egr-TK) and a recombinant adenovirus-expressing human Flt3L was constructed. The Adeno-Flt3L [10(9) plaque forming units (pfu)] was administered intravenously on days 1 and 8 after radiation therapy. The murine hepatoma cell line (BNL1ME) was stably transfected by Egr-TK or Egr-Null (encoding no therapeutic gene). Palpable tumors in BALB/c mice were treated with a localized dose of 25 Gy of radiation followed by ganciclovir (GCV, 100 mg/kg, 14 days). Four treatment cohorts were compared: Egr-Null/GCV + RT + Adeno-LacZ; Egr-Null/GCV + RT + Adeno-Flt3L; Egr-TK/GCV + RT + Adeno-LacZ; and Egr-TK/GCV + RT + Adeno-Flt3L. There was no primary tumor regression in the Egr-Null tumors after radiation therapy alone. In contrast, Egr-TK tumors had nearly complete tumor regression for 3 weeks after radiation therapy (P < 0.01), however, long-term follow-up demonstrated primary tumor recurrence and death secondary to pulmonary metastasis. Flt3L expression was confirmed by serum bioassay (mean = 88 ng/mL) in these animals and Western blotting of tissue culture medium in Adeno-Flt3L-infected BaF/huFlt3L cells. Radiation therapy with Adeno-Flt3L gene therapy effectively retarded primary tumor growth when compared to radiation therapy alone. The trimodality therapy (Egr-TK/GCV + RT + Adeno-Flt3L) was the most efficacious with 40% complete tumor regression (>100 days) and <20% pulmonary metastases, indicating the development of sustained antitumor immune response. These studies provide a rationale for triple modality therapies with radiation-inducible HSV-TK gene therapy and Adeno-Flt3L when used in combination with primary tumor radiation therapy for improved local and systemic control of HCC.

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An Autologous In Situ Tumor Vaccination Approach for Hepatocellular Carcinoma. 2. Tumor-Specific Immunity and Cure after Radio-Inducible Suicide Gene Therapy and Systemic CD40-Ligand and Flt3-Ligand Gene Therapy in an Orthotopic Tumor Model

et al. 2014

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Diffuse hepatocellular carcinoma (HCC) is a lethal disease that radiation therapy (RT) currently has a limited role in treating because of the potential for developing fatal radiation-induced liver disease. However, recently diffuse HCC, "radio-inducible suicide gene therapy" has been shown to enhance local tumor control and residual microscopic disease within the liver for diffuse HCC, by using a combination of chemoactivation and molecular radiosensitization. We have demonstrated that the addition of recombinant adenovirus-expressing human Flt3 ligand (Adeno-Flt3L) after radio-inducible suicide gene therapy induced a Th1-biased, immune response and enhanced tumor control in an ectopic model of HCC. We hypothesized that sequential administration of recombinant adenovirus-expressing CD40L (Adeno-CD40L) could further potentiate the efficacy of our trimodal therapy with RT + HSV-TK + Adeno-Flt3L. We examined our hypothesis in an orthotopic model of diffuse HCC using BNL1ME A.7R.1 (BNL) cells in Balb/c mice. BNL murine hepatoma cells (5 × 10(4)) transfected with an expression vector of HSV-TK under the control of a radiation-inducible promoter were injected intraportally into BALB/cJ mice. Fourteen days after the HCC injection, mice were treated with a 25 Gy dose of radiation to the whole liver, followed by ganciclovir (GCV) treatment and systemic adenoviral cytokine gene therapy (Flt3L or CD40L or both). Untreated mice died in 27 ± 4 days. Radiation therapy alone had a marginal effect on survival (median = 35 ± 7 days) and the addition of HSV-TK/GCV gene therapy improved the median survival to 47 ± 6 days. However, the addition of Adeno-Flt3L to radiation therapy and HSV-TK/GCV therapy significantly (P = 0.0005) increased survival to a median of 63 ± 20 days with 44% (7/16) of the animals still alive 116 days after tumor implantation. The curative effect of Flt3L was completely abolished when using immunodeficient nude mice or mice depleted for CD4, CD8 and natural killer cells. The addition of Adeno-CD40L further improved the median survival of animals to 80 ± 15 days and this effect was abolished only when using anti-CD8 antibodies. Chromium-51 (51Cr) release assay showed cytotoxic T lymphocyte (CTL) activation, suggesting efficient dendritic cell (DC) activation with CTL activation after the treatment. Furthermore, when surviving mice were rechallenged with BNL-ETK cells on the foot pad, RT + HSV-TK/GCV + Flt3L + CD40L-treated mice developed a small tumor on day 56 but the tumor eventually disappeared after 105 days. Mice treated with RT + HSV-TK/GCV + Flt3L showed a slowed tumor growth curve compared with untreated mice. Therefore, combination therapy using Flt3L to induce DC proliferation and CD40L to enhance DC maturation holds great promise for immunomodulation of radiation therapy to enhance HCC tumor control and prevent progression of disease in patients with diffuse HCC.

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A novel antiangiogenic therapy with soluble tek (Tie2) receptor tyrosine kinase alone or in combination with fractionated irradiation in a murine model of lung cancer

Deb

Garg

Kawashita

et al. 2001

International Journal of Radiation Oncology*Biology*Physics

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N.J. Deb

Normal hepatocytes correct serum bilirubin after repopulation of Gunn rat liver subjected to irradiation/partial resection

A novel strategy for in vivo expansion of transplanted hepatocytes using preparative hepatic irradiation and FasL-induced hepatocellular apoptosis

Flt3L Therapy following Localized Tumor Irradiation Generates Long-Term Protective Immune Response in Metastatic Lung Cancer: Its Implication in Designing a Vaccination Strategy

Liver irradiation: a potential preparative regimen for hepatocyte transplantation

Amplification of Engrafted Hepatocytes by Preparative Manipulation of the Host Liver

An AutologousIn SituTumor Vaccination Approach for Hepatocellular Carcinoma. 1. Flt3 Ligand Gene Transfer Increases Antitumor Effects of a Radio-Inducible Suicide Gene Therapy in an Ectopic Tumor Model

An Autologous In Situ Tumor Vaccination Approach for Hepatocellular Carcinoma. 2. Tumor-Specific Immunity and Cure after Radio-Inducible Suicide Gene Therapy and Systemic CD40-Ligand and Flt3-Ligand Gene Therapy in an Orthotopic Tumor Model

A novel antiangiogenic therapy with soluble tek (Tie2) receptor tyrosine kinase alone or in combination with fractionated irradiation in a murine model of lung cancer

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