Sarbari Ghosh

Neem Leaf Glycoprotein Activates CD8 + T Cells to Promote Therapeutic Anti-Tumor Immunity Inhibiting the Growth of Mouse Sarcoma

In spite of sufficient data on Neem Leaf Glycoprotein (NLGP) as a prophylactic vaccine, little knowledge currently exists to support the use of NLGP as a therapeutic vaccine. Treatment of mice bearing established sarcomas with NLGP (25 µg/mice/week subcutaneously for 4 weeks) resulted in tumor regression or dormancy (Tumor free/Regressor, 13/24 (NLGP), 4/24 (PBS)). Evaluation of CD8+ T cell status in blood, spleen, TDLN, VDLN and tumor revealed increase in cellular number. Elevated expression of CD69, CD44 and Ki67 on CD8+ T cells revealed their state of activation and proliferation by NLGP. Depletion of CD8+ T cells in mice at the time of NLGP treatment resulted in partial termination of tumor regression. An expansion of CXCR3+ and CCR5+ T cells was observed in the TDLN and tumor, along with their corresponding ligands. NLGP treatment enhances type 1 polarized T-bet expressing T cells with downregulation of GATA3. Treg cell population was almost unchanged. However, T∶Treg ratios significantly increased with NLGP. Enhanced secretion/expression of IFNγ was noted after NLGP therapy. In vitro culture of T cells with IL-2 and sarcoma antigen resulted in significant enhancement in cytotoxic efficacy. Consistently higher expression of CD107a was also observed in CD8+ T cells from tumors. Reinoculation of sarcoma cells in tumor regressed NLGP-treated mice maintained tumor free status in majority. This is correlated with the increment of CD44hiCD62Lhi central memory T cells. Collectively, these findings support a paradigm in which NLGP dynamically orchestrates the activation, expansion, and recruitment of CD8+ T cells into established tumors to operate significant tumor cell lysis.

Neem leaf glycoprotein prophylaxis transduces immune dependent stop signal for tumor angiogenic switch within tumor microenvironment.

We have reported that prophylactic as well as therapeutic administration of neem leaf glycoprotein (NLGP) induces significant restriction of solid tumor growth in mice. Here, we investigate whether the effect of such pretreatment (25µg/mice; weekly, 4 times) benefits regulation of tumor angiogenesis, an obligate factor for tumor progression. We show that NLGP pretreatment results in vascular normalization in melanoma and carcinoma bearing mice along with downregulation of CD31, VEGF and VEGFR2. NLGP pretreatment facilitates profound infiltration of CD8+ T cells within tumor parenchyma, which subsequently regulates VEGF-VEGFR2 signaling in CD31+ vascular endothelial cells to prevent aberrant neovascularization. Pericyte stabilization, VEGF dependent inhibition of VEC proliferation and subsequent vascular normalization are also experienced. Studies in immune compromised mice confirmed that these vascular and intratumoral changes in angiogenic profile are dependent upon active adoptive immunity particularly those mediated by CD8+ T cells. Accumulated evidences suggest that NLGP regulated immunomodulation is active in tumor growth restriction and normalization of tumor angiogenesis as well, thereby, signifying its clinical translation.

Neem leaf glycoprotein is nontoxic to physiological functions of Swiss mice and Sprague Dawley rats: histological, biochemical and immunological perspectives.

We have evaluated the toxicity profile of a unique immunomodulator, neem leaf glycoprotein (NLGP) on different physiological systems of Swiss mice and Sprague Dawley rats. NLGP injection, even in higher doses than effective concentration caused no behavioral changes in animals and no death. NLGP injection increased the body weights of mice slightly without any change in organ weights. NLGP showed no adverse effect on the hematological system. Moreover, little hematostimulation was noticed, as evidenced by increased hemoglobin content, leukocyte count and lymphocyte numbers. Histological assessment of different organs revealed no alterations in the organ microstructure of the NLGP treated mice and rats. Histological normalcy of liver and kidney was further confirmed by the assessment of liver enzymes like alkaline phosphatase, SGOT, SGPT and nephrological products like urea and creatinine. NLGP has no apoptotic effect on immune cells but induces proliferation of mononuclear cells collected from mice and rats. Number of CD4(+), CD8(+) T cells, DX5(+) NK cells, CD11b(+) macrophages and CD11c(+) dendritic cells is upregulated by NLGP without a significant change in CD4(+)CD25(+)Foxp3(+) regulatory T cells. Type 1 cytokines, like IFNγ also increased in serum with a decrease in type 2 cytokines. Total IgG content, especially IgG2a increased in NLGP treated mice. These type 1 directed changes help to create an anti-tumor immune environment that results in the restriction of carcinoma growth in mice. Accumulated evidence strongly suggests the non-toxic nature of NLGP. Thus, it can be recommended for human use in anti-cancer therapy.

Activation of D2 Dopamine Receptors in CD133+ve Cancer Stem Cells in Non-small Cell Lung Carcinoma Inhibits Proliferation, Clonogenic Ability, and Invasiveness of These Cells

Lung carcinoma is the leading cause of cancer-related death worldwide, and among this cancer, non-small cell lung carcinoma (NSCLC) comprises the majority of cases. Furthermore, recurrence and metastasis of NSCLC correlate well with CD133+ve tumor cells, a small population of tumor cells that have been designated as cancer stem cells (CSC). We have demonstrated for the first time high expression of D2 dopamine (DA) receptors in CD133+ve adenocarcinoma NSCLC cells. Also, activation of D2 DA receptors in these cells significantly inhibited their proliferation, clonogenic ability, and invasiveness by suppressing extracellular signal-regulated kinases 1/2 (ERK1/2) and AKT, as well as down-regulation of octamer-binding transcription factor 4 (Oct-4) expression and matrix metalloproteinase-9 (MMP-9) secretion by these cells. These results are of significance as D2 DA agonists that are already in clinical use for treatment of other diseases may be useful in combination with conventional chemotherapy and radiotherapy for better management of NSCLC patients by targeting both tumor cells and stem cell compartments in the tumor mass.

Neem leaf glycoprotein is superior than cisplatin and sunitinib malate in restricting melanoma growth by normalization of tumor microenvironment.

We have observed earlier that therapeutic treatment with neem leaf glycoprotein (NLGP) inhibits murine B16-melanoma growth in vivo and improves survivability of treated mice. Anti-tumor effect of NLGP is directly associated with enhanced CD8(+) T cell activity and downregulation of suppressive cellular functions. Objective of this present study is to know the efficacy of NLGP in comparison to two popular drugs, Cisplatin and Sunitinib malate (Sutent) in relation to the modulation of tumor microenvironment (TME). Analysis of cytokine milieu within TME revealed IL-10, TGFβ, IL-6 rich type 2 characters was significantly switched to type 1 microenvironment with dominance of IFNγ and IL-2 within NLGP-TME, which was not found in other cases; however Cisplatin-TME appeared better in type 2 to type 1 conversion than Sutent-TME as evidenced by RT-PCR, ELISA and immunohistochemical analysis. NLGP-TME educated CD8(+) T cells exhibited greater cytotoxicity to B16 Melanoma cells in vitro and these cells showed comparatively higher expression of cytotoxicity related molecules, perforin and granzyme B than Cisplatin-TME and Sutent-TME educated T cells. Adoptive transfer of NLGP-TME exposed T cells, but not PBS-TME exposed cells in mice, is able to significantly inhibit the growth of melanoma in vivo. Such tumor growth inhibition was in significantly lower extent when therapeutic CD8(+) T cells were exposed to either Cisplatin-TME or Sutent-TME or control-TME. Accumulated evidences strongly suggest that non toxic NLGP normalized TME allows T cells to perform optimally than other TMEs under study to inhibit the melanoma growth.

Neem leaf glycoprotein promotes dual generation of central and effector memory CD8(+) T cells against sarcoma antigen vaccine to induce protective anti-tumor immunity.

We have previously shown that Neem Leaf Glycoprotein (NLGP) mediates sustained tumor protection by activating host immune response. Now we report that adjuvant help from NLGP predominantly generates CD44(+)CD62L(high)CCR7(high) central memory (TCM; in lymph node) and CD44(+)CD62L(low)CCR7(low) effector memory (TEM; in spleen) CD8(+) T cells of Swiss mice after vaccination with sarcoma antigen (SarAg). Generated TCM and TEM participated either to replenish memory cell pool for sustained disease free states or in rapid tumor eradication respectively. TCM generated after SarAg+NLGP vaccination underwent significant proliferation and IL-2 secretion following SarAg re-stimulation. Furthermore, SarAg+NLGP vaccination helps in greater survival of the memory precursor effector cells at the peak of the effector response and their maintenance as mature memory cells, in comparison to single modality treatment. Such response is corroborated with the reduced phosphorylation of FOXO in the cytosol and increased KLF2 in the nucleus associated with enhanced CD62L, CCR7 expression of lymph node-resident CD8(+) T cells. However, spleen-resident CD8(+) T memory cells show superior efficacy for immediate memory-to-effector cell conversion. The data support in all aspects that SarAg+NLGP demonstrate superiority than SarAg vaccination alone that benefits the host by rapid effector functions whenever required, whereas, central-memory cells are thought to replenish the memory cell pool for ultimate sustained disease free survival till 60 days following post-vaccination tumor inoculation.

Neem leaf glycoprotein regulates function of tumor associated M2 macrophages in hypoxic tumor core: Critical role of IL-10/STAT3 signaling

Heterogeneous tumor microenvironment (TME), broadly divided into tumor core and peripheral sub-microenvironments, differentially polarize normal macrophages into a different form known as tumor associated M2 macrophages (M2TAMs) to promote tumor growth. In view of the extensive immune-editing role of NLGP, here, we have observed that NLGP is effective to convert M2TAMs (CD11b+F4/80high) to M1 (CD11b+F4/80low) more prominently in tumor core, along with downregulation of other M2 associated markers, like, ManR, Ym1, Fizz1. High IL-10:IL-12 ratio at tumor core was downregulated in NLGP treated melanoma bearing mice. Decrease in IL-10 by NLGP is again associated with the decrease in hypoxia, as indicated by prominent downregulation of HIF1α and VEGF, particularly at tumor core. Macrophages exposed to hypoxic tumor core lysates in vitro exhibited high IL-10, HIF1α and VEGF expression that was significantly downregulated by NLGP. Further evidences suggest M2TAM to M1 conversion by NLGP is associated with STAT3-regulated IL-10 dependent pathway without affecting the IL-4 dependent one. Such TAM modulatory functions of NLGP might help in the restriction of melanoma growth by increasing the proportion of M1 TAMs in tumor core that helps in prevention of tumor relapse and dissemination of the tumor mass.

Immunotherapeutic targeting of established sarcoma in Swiss mice by tumor-derived antigen-pulsed NLGP matured dendritic cells is CD8 + T-cell dependent

AIM Neem leaf glycoprotein (NLGP) matures human myeloid and mouse bone marrow-derived dendritic cells (DCs). (NLGP) also therapeutically restricts the mouse established sarcoma growth by activating CD8(+) T cells along with increased proportion of tumor residing CD11c(+) DCs. Here, we intended to find out whether CD8(+) T cells become cytotoxic to sarcoma cells after presentation of sarcoma antigen by NLGP-matured DCs to restrict murine sarcoma growth. MATERIALS & METHODS NLGP was prepared from matured neem(Azadirachta indica) leaves. Solid sarcoma tumor in Swiss mice was developed by subcutaneous inoculation of sarcoma cells. GMCSF-IL-4 generated DCs were matured with NLGP and pulsed with sarcoma antigen for immunotherapy. Status of CD8+CD69+T cells was studied by flow cytometry and secretion of cytokines was measured by ELISA. RT-PCR was used to monitor the status of perforin, granzyme B. RESULTS NLGP-matured sarcoma antigen-pulsed DCs (DCNLGPTAg) inhibit mouse sarcoma growth. DCNLGPTAg immunization enhances CD8(+) T-cell number within tumor-infiltrating lymphocytes and tumor-draining lymph nodes along with increased perforin and granzyme B expression. Antigen-specific T-cell proliferation and IFN-γ secretion were significantly higher in DCNLGP- and DCNLGPTAg-immunized mice groups. In vivo CD8(+) T-cell depletion abrogated the DCNLGPTAg-mediated tumor growth restriction. CONCLUSION DCNLGPTAg restricts CD8(+) T-cell-dependent mouse established sarcoma growth, related to the optimum antigen presentation by DCs to CD8(+) T cells.

Tumor-associated mesenchymal stem cells inhibit naïve T cell expansion by blocking cysteine export from dendritic cells.

Mesenchymal stem cells (MSCs) represent an important cellular constituent of the tumor microenvironment, which along with tumor cells themselves, serve to regulate protective immune responses in support of progressive disease. We report that tumor MSCs prevent the ability of dendritic cells (DC) to promote naïve CD4+ and CD8+ T cell expansion, interferon gamma secretion and cytotoxicity against tumor cells, which are critical to immune‐mediated tumor eradication. Notably, tumor MSCs fail to prevent DC‐mediated early T cell activation events or the ability of responder T cells to produce IL‐2. The immunoregulatory activity of tumor MSCs is IL‐10‐ and STAT3‐dependent, with STAT3 repressing DC expression of cystathionase, a critical enzyme that converts methionine‐to‐cysteine. Under cysteine‐deficient priming conditions, naïve T cells exhibit defective cellular metabolism and proliferation. Bioinformatics analyses as well as in vitro observations suggest that STAT3 may directly bind to a GAS‐like motif within the cystathionase promoter (−269 to −261) leading to IL‐10‐STAT3 mediated repression of cystathionase gene transcription. Our collective results provide evidence for a novel mechanism of tumor MSC‐mediated T cell inhibition within tumor microenvironment.

Absence of CD4+ T cell help generates corrupt CD8+ effector T cells in sarcoma-bearing Swiss mice treated with NLGP vaccine

One of the prime objectives of cancer immunology and immunotherapy is to study the issues related to rescue and/or maintenance of the optimum effector CD8(+) T cell functions by minimizing tumor-induced negative factors. In this regard the influence of host intrinsic CD4(+) helper T cells towards generation and maintenance of CD8(+) effector T cells appears controversial in different experimental settings. Therefore, the present study was aimed to re-analyze the influence of CD4(+) helper T cells towards effector T cells during neem leaf glycoprotein (NLGP)-vaccine-mediated tumor growth restriction. CD4 depletion (mAb; Clone GK1.5) surprisingly resulted in significant increase in CD8(+) T cells in different immune organs from NLGP-treated sarcoma-bearing mice. However, such CD8 surge could not restrict the sarcoma growth in NLGP-treated CD4-depleted mice. Furthermore, CD4 depletion in early phase hinders CD8(+) T cell activation and terminal differentiation by targeting crucial transcription factor Runx3. CD4 depletion decreases accumulation of CD8α(+) dendritic cells within tumor draining lymph node, hampers antigen cross priming and CD86-CD28 interactions for optimum CD8(+) T cell functions. In order to search the mechanism of CD4(+) T cell help on NLGP-mediated CD8 effector functions, the role of CD4(+) helper T cell-derived IL-2 on optimization of CD8 functions was found using STAT5 signaling, but complete response requires physical contact of CD4(+) helper T cells with its CD8 counterpart. In conclusion, it was found that CD4(+) T cell help is not required to generate CD8(+) T cells but was found to be an integral phenomenon in maintenance of its anti-tumor functions even in NLGP-vaccine-mediated sarcoma growth restriction.