Timothy M. Nywening

CSF1/CSF1R Blockade Reprograms Tumor-Infiltrating Macrophages and Improves Response to T Cell Checkpoint Immunotherapy in Pancreatic Cancer Models.

Cancer immunotherapy generally offers limited clinical benefit without coordinated strategies to mitigate the immunosuppressive nature of the tumor microenvironment. Critical drivers of immune escape in the tumor microenvironment include tumor-associated macrophages and myeloid-derived suppressor cells, which not only mediate immune suppression, but also promote metastatic dissemination and impart resistance to cytotoxic therapies. Thus, strategies to ablate the effects of these myeloid cell populations may offer great therapeutic potential. In this report, we demonstrate in a mouse model of pancreatic ductal adenocarcinoma (PDAC) that inhibiting signaling by the myeloid growth factor receptor CSF1R can functionally reprogram macrophage responses that enhance antigen presentation and productive antitumor T-cell responses. Investigations of this response revealed that CSF1R blockade also upregulated T-cell checkpoint molecules, including PDL1 and CTLA4, thereby restraining beneficial therapeutic effects. We found that PD1 and CTLA4 antagonists showed limited efficacy as single agents to restrain PDAC growth, but that combining these agents with CSF1R blockade potently elicited tumor regressions, even in larger established tumors. Taken together, our findings provide a rationale to reprogram immunosuppressive myeloid cell populations in the tumor microenvironment under conditions that can significantly empower the therapeutic effects of checkpoint-based immunotherapeutics.

Targeting focal adhesion kinase renders pancreatic cancers responsive to checkpoint immunotherapy

Single-agent immunotherapy has achieved limited clinical benefit to date in patients with pancreatic ductal adenocarcinoma (PDAC). This may be a result of the presence of a uniquely immunosuppressive tumor microenvironment (TME). Critical obstacles to immunotherapy in PDAC tumors include a high number of tumor-associated immunosuppressive cells and a uniquely desmoplastic stroma that functions as a barrier to T cell infiltration. We identified hyperactivated focal adhesion kinase (FAK) activity in neoplastic PDAC cells as an important regulator of the fibrotic and immunosuppressive TME. We found that FAK activity was elevated in human PDAC tissues and correlated with high levels of fibrosis and poor CD8+ cytotoxic T cell infiltration. Single-agent FAK inhibition using the selective FAK inhibitor VS-4718 substantially limited tumor progression, resulting in a doubling of survival in the p48-Cre;LSL-KrasG12D;Trp53flox/+ (KPC) mouse model of human PDAC. This delay in tumor progression was associated with markedly reduced tumor fibrosis and decreased numbers of tumor-infiltrating immunosuppressive cells. We also found that FAK inhibition rendered the previously unresponsive KPC mouse model responsive to T cell immunotherapy and PD-1 antagonists. These data suggest that FAK inhibition increases immune surveillance by overcoming the fibrotic and immunosuppressive PDAC TME and renders tumors responsive to immunotherapy.

Targeting tumour-associated macrophages with CCR2 inhibition in combination with FOLFIRINOX in patients with borderline resectable and locally advanced pancreatic cancer: a single-centre, open-label, dose-finding, non-randomised, phase 1b trial

BACKGROUND In pancreatic ductal adenocarcinoma, the CCL2-CCR2 chemokine axis is used to recruit tumour-associated macrophages for construction of an immunosuppressive tumour microenvironment. This pathway has prognostic implications in pancreatic cancer, and blockade of CCR2 restores anti-tumour immunity in preclinical models. We aimed to establish the safety, tolerability, and recommended phase 2 oral dose of the CCR2 inhibitor PF-04136309 in combination with FOLFIRINOX chemotherapy (oxaliplatin and irinotecan plus leucovorin and fluorouracil). METHODS We did this open-label, dose-finding, non-randomised, phase 1b study at one centre in the USA. We enrolled treatment-naive patients aged 18 years or older with borderline resectable or locally advanced biopsy-proven pancreatic ductal adenocarcinoma, an Eastern Cooperative Oncology Group performance status of 1 or less, measurable disease as defined by Response Evaluation Criteria in Solid Tumors version 1.1, and normal end-organ function. Patients were allocated to receive either FOLFIRINOX alone (oxaliplatin 85 mg/m(2), irinotecan 180 mg/m(2), leucovorin 400 mg/m(2), and bolus fluorouracil 400 mg/m(2), followed by 2400 mg/m(2) 46-h continuous infusion), administered every 2 weeks for a total of six treatment cycles, or in combination with oral PF-04136309, administered at a starting dose of 500 mg twice daily in a standard 3 + 3 dose de-escalation design. Both FOLFIRINOX and PF-04136309 were simultaneously initiated with a total treatment duration of 12 weeks. The primary endpoints were the safety, tolerability, and recommended phase 2 dose of PF-04136309 plus FOLFIRINOX, with an expansion phase planned at the recommended dose. We analysed the primary outcome by intention to treat. This trial is registered with ClinicalTrials.gov, number NCT01413022. RESULTS Between April 19, 2012, and Nov 12, 2014, we treated 47 patients with FOLFIRINOX alone (n=8) or with FOLFIRINOX plus PF-04136309 (n=39). One patient had a dose-limiting toxic effect in the dose de-escalation group receiving FOLFIRINOX plus PF-04136309 at 500 mg twice daily (n=6); this dose was established as the recommended phase 2 dose. We pooled patients in the expansion-phase group (n=33) with those in the dose de-escalation group that received PF-04136309 at the recommended phase 2 dose for assessment of treatment-related toxicity. Six (75%) of the eight patients receiving FOLFIRINOX alone were assessed for treatment toxicity, after exclusion of two (25%) patients due to insurance coverage issues. The median duration of follow-up for treatment toxicity was 72·0 days (IQR 49·5-89·0) in the FOLFIRINOX alone group and 77·0 days (70·0-90·5) in the FOLFIRINOX plus PF-04136309 group. No treatment-related deaths occurred. Two (5%) patients in the FOLFIRINOX plus PF-04136309 group stopped treatment earlier than planned due to treatment-related toxic effects. Grade 3 or higher adverse events reported in at least 10% of the patients receiving PF-04136309 included neutropenia (n=27), febrile neutropenia (n=7), lymphopenia (n=4), diarrhoea (n=6), and hypokalaemia (n=7). Grade 3 or higher adverse events reported in at least 10% of patients receiving FOLFIRINOX alone were neutropenia (n=6), febrile neutropenia (n=1), anaemia (n=2), lymphopenia (n=1), diarrhoea (n=2), hypoalbuminaemia (n=1), and hypokalaemia (n=3). Therapy was terminated because of treatment-related toxicity in one (17%) of the six patients receiving FOLFIRINOX alone. 16 (49%) of 33 patients receiving FOLFIRINOX plus PF-04136309 who had undergone repeat imaging achieved an objective tumour response, with local tumour control achieved in 32 (97%) patients. In the FOLFIRINOX alone group, none of the five patients with repeat imaging achieved an objective response, although four (80%) of those patients achieved stable disease. INTERPRETATION CCR2-targeted therapy with PF-04136309 in combination with FOLFIRINOX is safe and tolerable. FUNDING Washington University-Pfizer Biomedical Collaborative.

Targeting both tumour-associated CXCR2+ neutrophils and CCR2+ macrophages disrupts myeloid recruitment and improves chemotherapeutic responses in pancreatic ductal adenocarcinoma

Objective Chemokine pathways are co-opted by pancreatic adenocarcinoma (PDAC) to facilitate myeloid cell recruitment from the bone marrow to establish an immunosuppressive tumour microenvironment (TME). Targeting tumour-associated CXCR2+neutrophils (TAN) or tumour-associated CCR2+ macrophages (TAM) alone improves antitumour immunity in preclinical models. However, a compensatory influx of an alternative myeloid subset may result in a persistent immunosuppressive TME and promote therapeutic resistance. Here, we show CCR2 and CXCR2 combined blockade reduces total tumour-infiltrating myeloids, promoting a more robust antitumour immune response in PDAC compared with either strategy alone. Methods Blood, bone marrow and tumours were analysed from PDAC patients and controls. Treatment response and correlative studies were performed in mice with established orthotopic PDAC tumours treated with a small molecule CCR2 inhibitor (CCR2i) and CXCR2 inhibitor (CXCR2i), alone and in combination with chemotherapy. Results A systemic increase in CXCR2+ TAN correlates with poor prognosis in PDAC, and patients receiving CCR2i showed increased tumour-infiltrating CXCR2+ TAN following treatment. In an orthotopic PDAC model, CXCR2 blockade prevented neutrophil mobilisation from the circulation and augmented chemotherapeutic efficacy. However, depletion of either CXCR2+ TAN or CCR2+ TAM resulted in a compensatory response of the alternative myeloid subset, recapitulating human disease. This was overcome by combined CCR2i and CXCR2i, which augmented antitumour immunity and improved response to FOLFIRINOX chemotherapy. Conclusion Dual targeting of CCR2+ TAM and CXCR2+ TAN improves antitumour immunity and chemotherapeutic response in PDAC compared with either strategy alone.

Conjugation to the sigma-2 ligand SV119 overcomes uptake blockade and converts dm-Erastin into a potent pancreatic cancer therapeutic.

Cancer-selective drug delivery is an important concept in improving treatment while minimizing off-site toxicities, and sigma-2 receptors, which are overexpressed in solid tumors, represent attractive pharmacologic targets. Select sigma-2 ligands have been shown to be rapidly internalized selectively into cancer cells while retaining the capacity to deliver small molecules as drug cargoes. We utilized the sigma-2-based drug delivery concept to convert Erastin, a clinically underperforming drug, into a potent pancreatic cancer therapeutic. The Erastin derivative des-methyl Erastin (dm-Erastin) was chemically linked to sigma-2 ligand SV119 to create SW V-49. Conjugation increased the killing capacity of dm-Erastin by nearly 35-fold in vitro and reduced the size of established tumors and doubled the median survival in syngeneic and patient-derived xenograft models when compared to non-targeted dm-Erastin. Mechanistic analyses demonstrated that cell death was associated with robust reactive oxygen species production and could be efficiently antagonized with antioxidants. Mass spectrometry was employed to demonstrate selective uptake into pancreatic cancer cells. Thus, targeted delivery of dm-Erastin via conjugation to the sigma-2 ligand SV119 produced efficient tumor control and prolonged animal survival with minimal off-target toxicities, and SW V-49 represents a promising new therapeutic with the potential to advance the fight against pancreatic cancer.

Breast and pancreatic cancer interrupt IRF8-dependent dendritic cell development to overcome immune surveillance

Tumors employ multiple mechanisms to evade immune surveillance. One mechanism is tumor-induced myelopoiesis, whereby the expansion of immunosuppressive myeloid cells can impair tumor immunity. As myeloid cells and conventional dendritic cells (cDCs) are derived from the same progenitors, we postulated that myelopoiesis might impact cDC development. The cDC subset, cDC1, which includes human CD141+ DCs and mouse CD103+ DCs, supports anti-tumor immunity by stimulating CD8+ T-cell responses. Here, to understand how cDC1 development changes during tumor progression, we investigated cDC bone marrow progenitors. We found localized breast and pancreatic cancers induce systemic decreases in cDC1s and their progenitors. Mechanistically, tumor-produced granulocyte-stimulating factor downregulates interferon regulatory factor-8 in cDC progenitors, and thus results in reduced cDC1 development. Tumor-induced reductions in cDC1 development impair anti-tumor CD8+ T-cell responses and correlate with poor patient outcomes. These data suggest immune surveillance can be impaired by tumor-induced alterations in cDC development.Tumors escape the immune system through many mechanisms. Here the authors show that certain tumors inhibit anti-tumor immunity by stopping the production of conventional dendritic cells (cDCs) in the bone marrow, therefore depleting the pool of cDCs available to present antigen to CD8+ T cells.

Recruitment of CCR2+ tumor associated macrophage to sites of liver metastasis confers a poor prognosis in human colorectal cancer

ABSTRACT The tumor microenvironment (TME) represents a significant barrier to creating effective therapies for metastatic colorectal cancer (mCRC). In several malignancies, bone marrow derived CCR2+ inflammatory monocytes (IM) are recruited to the TME by neoplastic cells, where they become immunosuppressive tumor associated macrophages (TAM). Here we report that mCRC expression of the chemokine CCL2 facilitates recruitment of CCR2+ IM from the bone marrow to the peripheral blood. Immune monitoring of circulating monocytes in patients with mCRC found this influx was a prognostic biomarker and correlated with worse clinical outcomes. At the metastatic site, mCRC liver tumors were heavily infiltrated by TAM, which displayed a robust ability to dampen endogenous anti-tumor lymphocyte activity. Using a murine model of mCRC that recapitulates these findings from human disease, we show that targeting CCR2 reduces TAM accumulation in liver metastasis and restores anti-tumor immunity. Additional quantitative analysis of hepatic metastatic tumor burden and treatment efficacy found that administration of a small molecule CCR2 inhibitor (CCR2i) improves chemotherapeutic responses and increases overall survival in mice with mCRC liver tumors. Our study suggests that targeting the CCL2/CCR2 chemokine axis decreases TAM at the metastatic site, disrupting the immunosuppressive TME and rendering mCRC susceptible to anti-tumor T-cell responses.

Abstract 4150: Blockade of CXCR2 mediated granulocytic MDSC recruitment synergizes with CCR2 inhibition of inflammatory monocytes and restores anti-tumor immunity in pancreatic adenocarcinoma

Introduction: Pancreatic cancer (PC) is characterized by a dense tumor stroma with a heavy leukocytic infiltrate, comprised predominately of immunosuppressive bone marrow (BM) derived cells. We have previously demonstrated in a phase Ib clinical trial that CCR2 inhibition (CCR2i) prevents inflammatory monocyte (IM) recruitment from the BM and results in a significant reduction of tumor associated macrophages (TAM) and an increase in treatment efficacy. However, granulocytic myeloid derived suppressor cells (G-MDSC) remain in the tumor microenvironment (TME) following CCR2i. Herein, we explored the impact of targeting G-MDSC recruitment to PC tumors both alone and in combination with CCR2i. Methods: Human BM, blood, and tumor was collected under an IRB approved protocol. A tissue microarray (TMA) from resected PC patients was analyzed for immune infiltrate. Mice were injected orthotopically with 2.5×106 syngeneic PC cells. CXCR2 and CCR2 inhibitors (Tocris) were given twice daily. Tumor growth was assessed and specimens obtained for analysis by flow cytometry, RNAseq, and IHC. Results: Human PC overexpresses CXCL5 and CXCL8, corresponding with an abundance of tumor infiltrating CXCR2+ G-MDSC. Furthermore, the ratio of CD8 to G-MDSC correlates with survival in human PC patients. In an orthotopic murine model that recapitulates human disease, ΣCXCL ligands were also increased. Either Ly6G depletion or targeted blockade with a CXCR2 inhibitor decreased G-MDSC and reduced tumor burden. Intriguingly, blockade of IM from the BM did not reduce G-MDSC and paradoxically resulted in a modest increase in this population within the tumors from human patients following CCR2i. Thus, we explored the combination of CCR2/CXCR2 blockade both with and without FOLFIRINOX chemotherapy. This resulted in a synergistic impact when both BM derived populations were targeted and dual therapy was further enhanced by FOLFIRINOX. RNAseq analysis of tumors following monotherapy or dual inhibition revealed alterations in the TME favoring an anti-tumor immune response. To test the hypothesis that this effect was mediated by restoration of anti-tumor immunity we analyzed the tumor infiltrating lymphocyte (TIL) populations and found a significant increase in the relative and absolute numbers of CD8+ and C4+ TIL. Analysis of the activation status of these cells demonstrated an increase in effector CD8+ T-cell phenotype (IFNγ+, CD69+, CD44+). Using Nur77GFP T-cell receptor reporter mice, we showed an increase in GFP expressing CD8+ TIL following dual blockade. CD8 depletion resulted in a loss of therapeutic efficacy of myeloid blockade, further confirming our hypothesis. Conclusion: These findings suggest that combinatorial blockade strategies preventing tumor infiltration by myeloid cells may restore anti-tumor immunity in PC. Citation Format: Timothy M. Nywening, Brian A. Belt, Roheena Z. Panni, Darren Cullinan, Dominic E. Sanford, Ryan C. Fields, William G. Hawkins, David G. DeNardo, William E. Gillanders, Peter Goedegebuure, David C. Linehan. Blockade of CXCR2 mediated granulocytic MDSC recruitment synergizes with CCR2 inhibition of inflammatory monocytes and restores anti-tumor immunity in pancreatic adenocarcinoma. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 4150.

Abstract 2350: Vaccination enhances anti-tumor immunity in ovarian cancer following repolarization of the tumor microenvironment with CCR2 blockade

Introduction: Ovarian cancer (OC) expresses the tumor associated antigen mesothelin and contains a relative abundance of T-cells. However, ovarian cancer is also infiltrated by immunosuppressive tumor associated macrophages (TAM) that dominate the tumor microenvironment (TME). The CCL2/CCR2 chemokine axis is co-opted by various human malignancies to facilitate the recruitment of bone marrow (BM) derived inflammatory monocytes (IM) to the TME where they become immunosuppressive TAMs. Herein, we explore the rationale for combination of a CCR2 inhibitor (CCR2i) with a mesothelin peptide vaccine. Methods: Monocyte counts were obtained from preoperative CBCs under IRB approval. Mice were vaccinated with a dual eight-mer peptide (50 nM/vaccination) on days 0 and 7 with an irradiated peptide pulsed dendritic cell boost on day 14. Mice were challenged with 4 million syngeneic OC cells (ID8) on day 15. CCR2 inhibitor (Tocris) and CCR2 KO mice were used. Results: Preoperative monocyte counts of human ovarian cancer patients were stratified into low (>1 SD below mean), mid (within 1 SD of mean), and high (>1 SD above the mean) groups. Patients with a high monocyte count (n = 15) had a significantly decreased median survival of 1.2 years compared to 4.8 years in the low monocyte group (n = 15). The mid group (n = 69) had a median survival of 3.5 years (p 0.001). The hazard ratio between the low and high groups was 0.24 (0.05-0.39). Flow cytometry of peripheral blood from these patients demonstrated that the majority of these monocytes were CCR2+ inflammatory monocytes. Human OC overexpresses CCL2 compared to normal ovarian tissue and analysis of the TME from resected human OC patients revealed an abundance of CCR2+ TAM, which greatly outnumbered tumor infiltrating lymphocytes (TIL). In a murine ID8 tumor model, which recapitulates features of human OC, CCR2i prevented IM egress from the bone marrow with a resultant decrease in TAM at the primary tumor site. Furthermore, there was an increase in TIL infiltrate following CCR2 blockade. Addition of vaccine to CCR2i caused an improvement of effector to suppressor ratio and prolonged survival compared to vaccine (p = 0.02) or CCR2i alone (p = 0.02) and control (p Conclusion: Thus far vaccination has not provided durable patient responses in OC. Therapies targeting the immunosuppressive TME are an attractive treatment modality to enhance vaccination and facilitate anti-tumor immunity in OC. Citation Format: Darren Cullinan, Pratibha Binder, Timothy Nywening, Ivy Wilkinson-Ryan, Brian Belt, Peter Goedegebuure, David Linehan, Matthew Powell, William Hawkins. Vaccination enhances anti-tumor immunity in ovarian cancer following repolarization of the tumor microenvironment with CCR2 blockade. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 2350.

Abstract B58: Combination therapy with the novel small molecule drug conjugate SW V-49 and gemcitabine is a potent pancreatic cancer therapeutic

Cancer-selective drug delivery is an important concept in improving treatment while minimizing off-site toxicities, and sigma-2 receptors, which are overexpressed in solid tumors, represent attractive pharmacologic targets. Select sigma-2 ligands have been shown to be rapidly internalized selectively into cancer cells while retaining the ability to deliver small molecules as drug cargoes. We previously conjugated a derivative of Erastin, a small molecule with cytotoxic activity in cells bearing KRAS mutations, to sigma-2 ligand SV119, forming the novel small molecule drug conjugate SW V-49. SW V-49 demonstrated a reduction in tumor burden and improved median survival in multiple murine models of pancreatic cancer compared to either sigma-2 ligand (SV119), Erastin, or vehicle treatment alone. In the present work, we report on the selective and targeted delivery of SW V-49 to pancreatic tumors as well as the enhanced efficacy of treatment in combination with gemcitabine, a standard chemotherapeutic for pancreatic cancer. To determine delivery and uptake of SW V-49 in vivo, C57BL/6 mice bearing orthotopic KP-2 tumors were treated with SW V-49, and mass spectrometry was utilized to assess drug concentration within tissue. We observed increased delivery of SW V-49 to the tumor-bearing pancreas compared to liver, kidney, and muscle over 24 hours. To validate drug delivery in a genetically-engineered murine model, mass spectrometry was utilized to assess tissue uptake of SW V-49 in KPPC (p48-CRE/LSL-KRas/p53flox/flox) mice bearing palpable pancreatic tumors. Further evidence of SW V-49 tumor cell specificity is demonstrated by the significant reduction in EpCAM-positive neoplastic cells in the pancreatic tumors of C57BL/6 mice bearing orthotopic syngeneic KCKO tumors after treatment with SW V-49. In addition, we performed in vivo experimentation to demonstrate SW V-49 and gemcitabine combination therapy was superior in both subcutaneous and orthotopic murine models of pancreatic cancer. The KP-2 syngeneic subcutaneous tumor model demonstrated dense stroma similar to that of the human disease, and combination therapy with SW V-49 and gemcitabine resulted in significantly superior tumor reduction relative to all controls. We validated the utility of combination therapy in the KCKO syngeneic orthotopic model and again demonstrated the smallest tumor burden in the combination therapy group compared to control-treated animals. Together, these findings suggest that combination therapy utilizing the targeted therapeutic SW V-49 with systemic gemcitabine has potential translational utility. SW V-49 was successfully delivered in vivo to pancreatic tumors and reduced EpCAM-positive neoplastic cells, and combination therapy was superior to either agent alone and reduced tumor burden in multiple murine models of pancreatic cancer. Thus, SW V-49 is a promising novel therapeutic for pancreatic cancer and warrants further investigation. Citation Format: Kerri A. Ohman, Timothy M. Nywening, Suwanna Vangveravong, Dirk Spitzer, William G. Hawkins.{Authors}. Combination therapy with the novel small molecule drug conjugate SW V-49 and gemcitabine is a potent pancreatic cancer therapeutic. [abstract]. In: Proceedings of the AACR Special Conference on Pancreatic Cancer: Advances in Science and Clinical Care; 2016 May 12-15; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2016;76(24 Suppl):Abstract nr B58.