Human cytomegalovirus seropositivity is associated with reduced patient survival during sepsis

BACKGROUND

Sepsis is one of the leading causes of death. Treatment attempts targeting the immune response regularly fail in clinical trials. As HCMV latency can modulate the immune response and changes the immune cell composition, we hypothesized that HCMV serostatus affects mortality in sepsis patients.

METHODS

We determined the HCMV serostatus (i.e., latency) of 410 prospectively enrolled patients of the multicenter SepsisDataNet.NRW study. Patients were recruited according to the SEPSIS-3 criteria and clinical data were recorded in an observational approach. We quantified 13 cytokines at Days 1, 4, and 8 after enrollment. Proteomics data were analyzed from the plasma samples of 171 patients.

RESULTS

The 30-day mortality was higher in HCMV-seropositive patients than in seronegative sepsis patients (38% vs. 25%, respectively; p = 0.008; HR, 1.656; 95% CI 1.135-2.417). This effect was observed independent of age (p = 0.010; HR, 1.673; 95% CI 1.131-2.477). The predictive value on the outcome of the increased concentrations of IL-6 was present only in the seropositive cohort (30-day mortality, 63% vs. 24%; HR 3.250; 95% CI 2.075-5.090; p < 0.001) with no significant differences in serum concentrations of IL-6 between the two groups. Procalcitonin and IL-10 exhibited the same behavior and were predictive of the outcome only in HCMV-seropositive patients.

CONCLUSION

We suggest that the predictive value of inflammation-associated biomarkers should be re-evaluated with regard to the HCMV serostatus. Targeting HCMV latency might open a new approach to selecting suitable patients for individualized treatment in sepsis.

[Safety and efficacy of en bloc vs. conventional transurethral resection of bladder tumors: a meta-analysis and systematic review]

BACKGROUND

En bloc tumor resection of bladder tumors (ERBT) is a novel alternative procedure to conventional resection of bladder tumor (cTURBT), which might help to address common problems of the standard method, such as inadequate detrusor muscle in specimens, high re-resection rates and high recurrence rates.

OBJECTIVE

To analyze current data on ERBT in efficacy and safety compared to cTURBT.

DATA SOURCES

PubMed.

STUDY SELECTION

Two independent authors identified trials based on keywords and inclusion criteria. A third author was consulted in case of discrepancies. Screening keywords: ERBT, en bloc transurethral resection of bladder tumor, TURBT en bloc. A meta-analysis of 13 studies was performed. The effect size was estimated based on odds ratios and mean differences including their corresponding two-sided 95% confidence intervals.

DATA SYNTHESIS

The analyzed studies comprised a homogenous collective in terms of tumor size, tumor multiplicity and tumor stage. Operation time did not significantly differ between the methods. Differences were observed in hospitalization and catheterization time in favor of ERBT. Reported complications did not show clear differences. There was significantly more detrusor muscle in the specimens in the ERBT group. No significant differences were found in recurrence up to 2 years of follow-up.

CONCLUSION

ERBT is a safe alternative to conventional TURBT with promising features regarding effective resection of detrusor muscle. More standardized data on recurrence rates, different resection modalities and resection margin results are needed.

[Transurethral resection of bladder tumors (TURBT)]

Transurethral resection of bladder tumors (TURBT) is the standard of care for the diagnostics and primary treatment of bladder tumors. These are removed by fragmentation using loop diathermy. The resection area is coagulated for hemostasis. An important aspect is always a complete resection with an adequate amount of detrusor muscle in the specimen. Postoperative intravesical instillation of single-shot chemotherapy has been proven to reduce recurrence rates. Methods for improved tumor visualization (particularly photodynamic diagnostics) are used to enhance tumor detection rates particularly in multifocal tumors or carcinoma in situ (CIS). Thus, recurrence and progression rates can be reduced. Depending on the histological examination of the TURBT specimen, follow-up treatment for non-muscle invasive bladder tumors are adjuvant instillation treatment using chemotherapy or Bacillus Calmette-Guérin (BCG), second look TURBT and early cystectomy or for muscle invasive bladder tumors, radical cystectomy or (oncologically subordinate) trimodal treatment with renewed TURBT, radiotherapy and chemotherapy are indicated. Possible complications of TURBT include bleeding with bladder tamponade, extraperitoneal or intraperitoneal bladder perforation and infections of the urogenital tract.

Beneficial modulation of the tumor microenvironment and generation of anti-tumor responses by TLR9 agonist lefitolimod alone and in combination with checkpoint inhibitors

Activation of Toll-like receptor 9 (TLR9) is known to foster innate and adaptive immune responses and thus improve immune-mediated control of malignant disease. Lefitolimod is a potent TLR9 agonist without chemical modification developed for immunotherapeutic strategies. Modulation of the tumor microenvironment (TME) is a crucial requirement for the response to various immunotherapies: Immunogenic (“hot”) tumors, characterized by their T cell-infiltrated TME, respond better compared to non-immunogenic (“cold”) tumors. It has been speculated that the mode-of-action of lefitolimod provides the necessary signals for activation of immune cells, their differentiation into anti-tumor effector cells and their recruitment into the TME. We investigated the effect of lefitolimod on TME, and its potency to induce synergistic anti-tumor effects when combined with immune checkpoint inhibitory antibodies (CPI) in a murine model. Indeed, we could show that treatment with single-agent lefitolimod beneficially modulated the TME, via infiltration of activated CD8+ cells and a shift in the macrophage population toward M1 phenotype. The result was a pronounced anti-tumor effect correlated with the magnitude of infiltrated immune cells and tumor-specific T cell responses. In line with this, lefitolimod led to persistent anti-tumor memory in the EMT-6 model after tumor re-challenge. This was accompanied by an increase of tumor-specific T cell responses and cross-reactivity against different tumor cells. Lefitolimod clearly augmented the limited anti-tumor effect of the CPI anti-PD1 in an A20 and anti-PD-L1 in a CT26 model. These properties of potent immune surveillance reactivation render lefitolimod an ideal candidate as therapeutic agent for immuno-oncology, e.g. improving CPI strategies.

Abstract 5557: EnanDIM, a family of potent enantiomeric TLR9 agonists, modulate the tumor microenvironment and show single-agent antitumor effects in various syngeneic murine models

Introduction: TLR9 agonists, being recognized via non-methylated CG-motifs, target the Toll-like receptor 9 (TLR9). This way, they activate the innate and the adaptive immune system. Two different families of TLR9 agonists are currently used in preclinical and clinical studies: Covalently-closed dumbbell-shaped DNA molecules with natural phosphodiester backbone which are protected from degradation by their conformation (dSLIM®) and single-stranded, oligodeoxynucleotides (CpG-ODN) commonly stabilized by phosphorothioates (PTO). However, chemical PTO-modifications have resulted in off-target effects and an unfavorable risk-to-benefit ratio in clinical trials. EnanDIM® are a new family of TLR9 agonists. EnanDIM® molecules consist of linear single-stranded ODN. Protection against exonucleases is achieved through L-deoxyribose nucleotides instead of the naturally occurring D-deoxyribose nucleotides at their 3'-ends. EnanDIM® lead to pronounced induction of cyto- and chemokines, like IFN-alpha and IP-10, as well as broad activation of immune cells, like monocytes, NK cells and dendritic cells, within PBMC. Therefore, EnanDIM® were evaluated in various syngeneic murine tumor models for their anti-tumor effects.

Methods: Mice were subcutaneously inoculated with either CT26 (colon carcinoma), MC38 (colon carcinoma), EMT-6 (breast cancer), B16F10 (melanoma) or A20 (lymphoma) cells for solid tumor growth. EnanDIM® (250 µg per dose, intratumoral) was used to treat established tumors. In addition, the capability of EnanDIM® to modulate the tumor micro-environment (TME) was analyzed via immunohistochemistry in a syngeneic tumor model.

Results: Mice in all models showed clear reduction in tumor growth (TGI: 53 to 85%) and, therefore, an increased survival (p ≤0.001, logrank). Notably, in the EMT-6 tumor model 8/10 mice showed complete tumor regression after EnanDIM® injection. Those 8 mice rejected EMT-6 tumor cells in a subsequent re-challenge study, indicating a sustained immune memory against the tumor, which was in contrast to age-matched naïve mice. When analyzing the TME of mice from the CT26 model an increased immune cell infiltration into the tumor by CD3+, especially CD8+ T cells was detected, showing the ability of EnanDIM® to beneficially modulate the TME.

Conclusions: The enantiomeric TLR9 agonists EnanDIM® show promising anti-tumor effects in a variety of syngeneic murine tumor models and a beneficial modulation of the TME towards an increase of anti-tumor effector cells. These data provide the basis for a further development of EnanDIM® in cancer.

Citation Format: Barbara Volz, Kerstin Kapp, Detlef Oswald, Burghardt Wittig, Manuel Schmidt. EnanDIM, a family of potent enantiomeric TLR9 agonists, modulate the tumor microenvironment and show single-agent antitumor effects in various syngeneic murine models [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 5557.

Modulation of T cell and macrophage tumor infiltration by the TLR9 agonist lefitolimod in a murine model of colorectal cancer

687

Background: The use of TLR9 agonists for immunotherapeutic approaches is supported by preclinical and ongoing clinical studies. Lefitolimod, a covalently-closed dumbbell-shaped DNA construct, is an immune surveillance reactivator which broadly activates cells of the innate and adaptive immune system. The conversion of non-immunogenic (cold) tumors into immunogenic (hot) tumors, characterized by their T-cell infiltration, is a pre-requisite for response to immunotherapies. By its mode-of-action lefitolimod likely provides the necessary signals for activation of immune cells and their differentiation into anti-tumor effector cells as well as their recruitment to the tumor microenvironment (TME). Methods: To support the further clinical development of lefitolimod in mCRC, the syngeneic colon carcinoma model CT26 was used to evaluate anti-tumoral efficacy of lefitolimod and its modulation of the TME. The phenotype of T cells and macrophages present within tumor-infiltrating immune cells were analyzed by flow cytometry. Their localization within the tumor was investigated by immunohistochemistry. Results: Intratumoral injection of single-agent lefitolimod in the CT26 model resulted in reduced tumor growth. This was accompanied by an increased infiltration of T cells, in particular CD8+ T cells, into the tumor center. The CD8+ T cells were activated and showed an up-regulation of the cytolytic effector Granzyme B. Correspondingly, the ratio of activated CD8+ T cells with cytolytic function to regulatory T cells was increased by lefitolimod. Moreover, lefitolimod led to the recruitment of macrophages into the tumor and, importantly, an increase of M1 macrophages and a decrease of M2 macrophages inside the TME. Conclusions: Lefitolimod treatment resulted in modulation of the TME towards an increase of effector cells with anti-tumoral functions like cytotoxic CD8+ T cells and M1-type macrophages as well as a decrease of pro-tumoral M2-type macrophages. Therefore, lefitolimod provides the essential requirements for clinical response to immunotherapeutic drugs like checkpoint inhibitors. This predestines lefitolimod as combination partner in immuno-oncological trials.

Abstract 2622: Two new TLR9 agonists for cancer immunotherapy: Combination with checkpoint inhibitors

Introduction

TLR9 agonists are developed as anti-cancer therapies based on their broad activation of the innate and adaptive immune system. Single-stranded oligodeoxynucleotides (ODN) containing non-methylated CG-motifs activate TLR9. Previously, chemical modification was used to prevent their degradation by exonucleases. To avoid the off-target effects observed with chemical modifications, new TLR9 agonists containing only natural DNA were stabilized by structural components. The dSLIM® family of TLR9 agonists is protected from exonucleolytic degradation by its covalently-closed dumbbell-shaped structure. It contains an immunomodulatory sequence with CG-motifs in its loops. The linear single-stranded EnanDIM® family of TLR9 agonists utilizes L-deoxyribonucleotides (natural enantiomers of D-deoxyribonucleotides) at their 3’-ends to prevent degradation. Since the mode-of-action of TLR9 agonists starts upstream of the targets of checkpoint inhibitors anti-PD-1/anti-PD-L1 a combinatory approach may support synergistic immune activation and thus enhanced anti-tumor effects.

Methods

The impact of dSLIM2006 and EnanDIM-1 on T cell responses was analyzed employing an in vitro assay using human peripheral blood mononuclear cells (PBMC). PBMC were treated with peptides selected from HLA class I-restricted T-cell epitopes of recall-antigens (CMV, EBV, Flu = CEF), TLR9 agonists and anti-PD-1 as checkpoint inhibitor. In addition, in vivo studies were used to investigate the anti-tumor effect of dSLIM2006 and EnanDIM-1 in combination with anti-PD-1 in a syngeneic murine CT26 tumor model.

Results

The IFN-gamma secretion of human PBMC after stimulation of CEF peptides was roughly 5-fold increased by EnanDIM-1 and dSLIM2006, whereas treatment with anti-PD-1 resulted barely in a two-fold increase. The combination of the TLR9 agonists and anti-PD-1 further enforced IFN-gamma secretion by about 7-fold. In the murine colon cancer model CT26 the subcutaneous injection of EnanDIM-1 or intraperitoneal injection of anti-PD-1 had a moderate effect on the tumor growth when used in monotherapy (28.3% or 57.0% tumor growth inhibition, TGI). Notably, a combination of EnanDIM-1 and anti-PD-1 further reduced tumor growth (74.7% TGI). Intratumoral injection of dSLIM2006 in combination with intraperitoneal injection of anti-PD-1 reduced tumor growth (54.2% TGI) whereas the single components had more limited effects (dSLIM2006: 18.7%, anti-PD-1: no inhibition). Combined treatment with TLR9 agonists and anti-PD-1 prolonged survival of the mice in comparison to single treatments.

Conclusions

The TLR9 agonists and immune surveillance reactivators (ISR) EnanDIM-1 and dSLIM2006 enhance T cell responses and anti-tumor effects of the anti-PD-1 checkpoint inhibitor. These data show their promising potential not only for monotherapeutic but also combinatory approaches.

Citation Format: Kerstin Kapp, Barbara Volz, Detlef Oswald, Burghardt Wittig, Manuel Schmidt. Two new TLR9 agonists for cancer immunotherapy: Combination with checkpoint inhibitors [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 2622. doi:10.1158/1538-7445.AM2017-2622

TLR9 agonist lefitolimod to improve antitumor effect of checkpoint inhibitors in vivo

e14625

Background: TLR9 agonists are potent activators of the immune system via induction of cellular and humoral responses. Preclinical and ongoing clinical studies support the use of TLR9 agonists for immunotherapeutic approaches. Lefitolimod/MGN1703 is a covalently-closed dumbbell-like immune surveillance reactivator (ISR) with a broad immunomodulatory potential. Due to promising data from a phase 2 trial (IMPACT) as maintenance therapy after first-line chemotherapy in mCRC patients lefitolimod is recently evaluated in a phase 3 trial in mCRC patients (IMPALA). Furthermore, lefitolimod is currently investigated in a phase 2 trial in SCLC patients (IMPULSE) and in a phase 1 / 2 trial in HIV patients (TEACH). Methods: It was shown that lefitolimod reduces tumor growth in several murine tumor models. Since the mode-of-action of lefitolimod starts upstream of the initiation points of checkpoint inhibitors like anti-CTLA-4 or anti-PD-1/anti-PD-L1 a combinatory approach may result in an enhanced anti-tumor effect. Therefore, two syngeneic murine models were used – a colon carcinoma CT26 and a lymphoma A20 model – for evaluation of the anti-tumor effect in vivo. Results: In the CT26 model treatment with anti-PD-L1 (i.p.) had no effect on the tumor growth, whereas addition of lefitolimod (s.c.) to anti-PD-L1 led to an anti-tumor effect (tumor growth inhibition, TGI 48%) which consequently resulted in prolonged survival of the mice. This combinatory effect was even more pronounced in the A20 model where treatment with anti-PD-1 (i.p.) alone had a moderate anti-tumor effect which was vastly increased by the combination (TGI – anti-PD-1: 46%, anti-PD-1/lefitolimod 99%). Conclusions: In conclusion, we showed that lefitolimod, a member of dSLIM® family of TLR9 agonists and an ISR, can enhance the limited anti-tumor effects of checkpoint inhibitors in pilot studies in murine colon carcinoma and lymphoma tumor models in vivo. These data show the promising potential for the combination with checkpoint inhibitors. Notably, a clinical trial in cooperation with MD Anderson evaluating the benefit of lefitolimod in combination with ipilimumab is currently ongoing.

Combination of TLR9 agonists EnanDIM with checkpoint inhibitors for cancer immunotherapy

134

Background: TLR9 agonists have shown anti-tumor effects by modulating the innate and adaptive immune system. Ongoing clinical studies support the use of TLR9 agonists for immunotherapeutic approaches. The new family of TLR9 agonists, EnanDIM, consists of linear single-stranded ODN synthesized using L-deoxyribonucleotides (natural enantiomers of D-deoxyribonucleotides) at their 3’-ends to prevent degradation. Therefore, EnanDIM does not own the off-target effects of PTO-modified CpG-ODN. Methods: EnanDIM with varying nucleotid sequences were compared for IFN-alpha response from human peripheral blood mononuclear cells and those molecules inducing the stronges response were selected. A maximum feasible dose (MFD) approach was employed to evaluate their acute toxicity and immunomodulatory properties. In addition, a combinatory approach with aPD-1 was evaluated in an syngeneic colon carcinoma CT26 mouse tumor model. Results: EnanDIM581 and EnanDIM532 were selected due to their pronounced activation of the IFN-alpha pathway in vitro. Safety assessments throughout and a gross necropsy at the end of the study revealed no signs of toxicity despite extremely high doses (300 - 1700 mg/kg). Dose-dependent increase of IP-10 levels in serum was observed between 6 and 24 hours after injection. In the colon carcinoma CT26 model subcutaneous injection of EnanDIM532 and intraperitoneal injection of aPD-1 had a moderate effect on the tumor growth when used in monotherapy (28.3% and 57.0% tumor growth inhibition, TGI). Notably, a combination of EnanDIM532 and aPD-1 further reduced tumor growth (74.7% TGI) and thus prolonged survival of the mice. Conclusions: In conclusion, EnanDIM, a new family of TLR9 agonists and immune surveillance reactivators (ISR), broadly activates the immune system, shows no toxicity in an MFD study and enhances the anti-tumor effects of the aPD-1 checkpoint inhibitor in a pilot study of a murine colon carcinoma tumor model. These data show the promising potential of EnanDIM not only for monotherapeutic but also combinatory approaches.

Combination of TLR9 agonist lefitolimod/MGN1703 with checkpoint inhibitors for cancer immunotherapy

634

Background: TLR9 agonists are potent activators of the immune system via induction of cellular and humoral responses. Preclinical and ongoing clinical studies support the use of TLR9 agonists for immunotherapeutic approaches. Lefitolimod/MGN1703 is a covalently-closed dumbbell-like immune surveillance reactivator (ISR) with a broad immunomodulatory potential. After promising data from a phase II trial (IMPACT) as maintenance therapy after first-line induction chemotherapy in patients with metastatic colorectal cancer lefitolimod is recently evaluated in a phase III trial in mCRC patients (IMPALA). Methods: It was previously shown that lefitolimod can reduce tumor growth in several murine tumor models. Since the mode-of-action of lefitolimod starts upstream of the initiation points of checkpoint inhibitors aCTLA-4 or aPD-1/aPD-L1 a combinatory approach may result in an enhanced anti-tumor effect. Therefore, we employed two syngeneic murine tumor models: One with s.c. inoculation of CT26 cells and another with s.c. A20 cell challenge. Multiple doses of lefitolimod were injected s.c. or i.tu. Results: In the colon carcinoma CT26 model i.p. injection of aPD-L1 had no effect on the tumor growth, whereas peritumoral injection of lefitolimod led to a slowed tumor growth. The tumor growth was further inhibited by the combination (tumor growth inhibition, TGI - aPD-L1: no, lefitolimod: 28%, combination: 48%) resulting in prolonged survival of the mice. This combinatory effect was even more pronounced in the lymphoma A20 model: Injections of anti-PD-1 (i.p.) or lefitolimod (i.tu.) alone had a moderate anti-tumor effect which was vastly increased by the combination (TGI - aPD-1: 46%, lefitolimod: 50%, combination: 99%). Conclusions: In conclusion, we showed that lefitolimod, a member of dSLIM family of TLR9 agonists and an ISR, can enhance the limited anti-tumor effects of checkpoint inhibitors in pilot studies in murine colon carcinoma and lymphoma tumor models in vivo. These data show the promising potential for the combination with checkpoint inhibitors. In fact, a clinical trial in cooperation with MD Anderson evaluating the benefit of lefitolimod in combination with ipilimumab is currently ongoing.

Abstract B067: Preclinical data of novel enantiomeric oligonucleotides for cancer immunotherapy: The TLR9 agonist EnanDIM

Introduction: The use of TLR9 agonists as immunomodulators is supported by preclinical and clinical studies, showing their anti-tumor effect by enhancing both cellular and humoral responses. Two different families of DNA molecules containing non-methylated CG-motifs for TLR9 activation have been established so far: Dumbbell-shaped dSLIM molecules are protected against exonucleolytic degradation by their covalently-closed, natural phosphodiester (PO) backbone. In contrast, single-stranded, oligodeoxynucleotides (CpG-ODN) are most commonly chemically-stabilized by phosphorothioates (PTO) in their phosphate moieties. However, PTO modifications produce off-target effects in immune cell populations and have resulted in an unfavorable risk-to-benefit ratio.

Methods: Linear single-stranded ODN were synthesized using L-deoxyribonucleotides at their 3'-ends, which are the natural enantiomers of D-deoxyribonucleotides, to ensure protection against exonucleases and avoid the off-target effects of PTO-modified CpG-ODN. The vast majority of deoxyribose in present organisms are D-deoxyribose, thus co-evolved nucleases are blind for L-deoxyribose thereby leaving L-protected ODN intact. Using high secretion of IFN-alpha and IP-10 from human peripheral blood mononuclear cells as marker, we selected nucleotide sequences of such L-protected, CG-motif containing, single-stranded ODN, EnanDIM. First, we employed a maximum feasible dose (MFD) approach. Mice received subcutaneous injection of single doses of 10 to 50 mg EnanDIM to evaluate its acute toxicity. Immunomodulatory properties were evaluated as well. Finally, a pilot tumor model in mice was used to investigate the anti-tumor effect of EnanDIM.

Results: EnanDIM581 and EnanDIM532 were selected due to their pronounced activation of immune cells (e.g. monocytes, NK cells and plasmacytoid dendritic cells) and their prominent induction of IFN-alpha and IP-10 secretion in vitro. EnanDIM744, comprising EnanDIM581 with additional 5'-end L-nucleotide protection and exhibiting an activation pattern similar to EnanDIM581, was also used for MFD studies. Safety assessments were performed throughout the study period and no mortality, clinical signs and body weight changes were observed, despite the extremely high doses of app. 300 to 1700 mg/kg. A gross necropsy consisting of a macroscopic organ evaluation at day 15 revealed also no toxicity. Dose-dependent increase of IP-10 levels in serum was observed between 6 and 24 hours after injection (maximum at 6h) but after 15 days IP-10 levels were undetectable, confirming that L-nucleotides in EnanDIM do not change the kinetic profile known from other DNA-based TLR9 agonists. Preliminary data from a murine tumor model suggest that multiple doses of EnanDIM can reduce tumor growth.

Conclusions: EnanDIM, a new family of TLR9 agonists, broadly activates the immune system in vitro and in vivo. While maximal feasible doses of EnanDIM resulted in no signs of toxicity, an indication of reduced tumor growth was observed in a murine tumor model in vivo. Therefore EnanDIM has the potential for clinical development in the treatment of cancer.

Citation Format: Kerstin Kapp, Barbara Volz, Detlef Oswald, Burghardt Wittig, Manuel Schmidt. Preclinical data of novel enantiomeric oligonucleotides for cancer immunotherapy: The TLR9 agonist EnanDIM [abstract]. In: Proceedings of the Second CRI-CIMT-EATI-AACR International Cancer Immunotherapy Conference: Translating Science into Survival; 2016 Sept 25-28; New York, NY. Philadelphia (PA): AACR; Cancer Immunol Res 2016;4(11 Suppl):Abstract nr B067.

Frailty has a stronger association with inflammation than age in older veterans

BACKGROUND

Upregulation of pro-inflammatory cytokines has not only been associated with increased morbidity and mortality in older adults but also has been linked to frailty. In the current study we aimed to compare the relative relationship of age and frailty on inflammation and thrombosis in older veterans.

RESULTS

We analyzed 117 subjects (age range 62-95 years; median 81) divided into 3 cohorts: non-frail, pre-frail and frail based on the Fried phenotype of frailty. Serum inflammatory markers were determined using commercially available ELISA kits. Frail and pre-frail (PF) subjects had higher levels than non-frail (NF) subjects of IL-6 (NF vs. PF: p = 0.002; NF vs. F: p < 0.001), TNFR1 (NF vs. F: p = 0.012), TNFRII (NF vs. F: 0.002; NF vs. PF: p = 0.005) and inflammatory index: = 0.333*log(IL-6) + 0.666*log(sTNFR1) (NF vs. F: p = 0.009; NF vs. PF: p < 0.001). Frailty status explained a greater percent of variability in markers of inflammation than age: IL-6 (12 % vs. 0.3 %), TNFR1 (5 % vs. 4 %), TNFR2 (11 % vs. 6 %), inflammatory index (16 % vs. 8 %). Aging was significantly associated with higher fibrinogen (p = 0.04) and D-dimer levels (p = 0.01) but only among NF subjects.

CONCLUSION

In conclusion, these data suggest that among older veterans, frailty status has a stronger association with inflammation and the inflammatory index than age does. Larger studies, in more diverse populations are needed to confirm these findings.

Abstract A035: Pharmacokinetics and pharmacodynamics of the immunotherapeutic TLR-9 agonist MGN1703 – conclusions by comparison of data from clinical trials with healthy volunteers and cancer patients

Background: The synthetic DNA-based immunomodulator MGN1703 is a member of the new dSLIM® family of TLR-9 agonists, comprising covalently closed dumbbell-like DNA molecules which consist entirely of natural DNA with two single-stranded CG-containing loops separated by a double-stranded stem. MGN1703 exerts its function by activating the innate and both arms of the adaptive immune system. MGN1703 has already shown a good safety profile and benefit for patients compared to placebo in maintenance therapy of metastatic colorectal carcinoma (mCRC) after fist-line induction therapy in a phase 2 clinical trial (MGN1703-C02, IMPACT).

Methods: Following preclinical studies in mice and monkeys, a human clinical program was performed, including a phase 1 trial (MGN1703-C01), on a variety of solid tumors, and the double-blinded, placebo-controlled phase 2 IMPACT trial with mCRC patients. Additionally, a single dose crossover, placebo-controlled phase 1 cardiac safety trial, MGN1703-C04, was conducted to assess cardiac and general safety, pharmacokinetics (PK) and pharmacodynamics (PD) in healthy volunteers (HV). Fourteen HV were randomized and 13 subjects completed the study receiving a subcutaneous dose of 60 mg MGN1703 during one treatment period and a single dose of placebo during the other.

Results: After single dose administration of MGN1703 standard PK parameters were determined in the MGN1703-C04 trial: mean Tmax (14h), AUC0-t (5000 ng•hr/mL) and shape of the curve of MGN1703 concentration in serum. These were similar to single dose data obtained from cancer patients, where a mean Tmax of 10h and a mean AUC0-t of 5340 ng•hr/mL have been observed. Notably, multiple doses resulted in similar levels in serum of cancer patients, without accumulation of MGN1703.

PD was mainly evaluated by analyzing levels of the chemokine IP-10 in serum of the HV as an equivalent of innate immune activation. Elevated IP-10 levels in the serum of HV were shown peaking at 24-48 hours after dosing with MGN1703. This is clearly in line with expected time frame of immune activation subsequent to MGN1703 appearance in the serum of the HV. Timing and levels of IP-10 elevation are in keeping with data from the peripheral blood of cancer patients, where in addition to IP-10 also the subsequent activation of innate immune cells – especially the up-regulation of CD169 on monocytes – as a consequence of MGN1703 administration was observed.

Conclusions: The data show obvious similarities between healthy volunteers and cancer patients with respect to PK and PD and also confirm the appearance of the appropriate immunomodulatory signature downstream of MGN1703 appearance. This supports the twice weekly application scheme of current immunotherapy studies with MGN1703, e.g. the ongoing phase 3 IMPALA trial in mCRC patients. Further data will allow for evaluation of a possible association with clinical parameters in cancer patients.

Citation Format: Manuel Schmidt, Kerstin Kapp, Detlef Oswald, Matthias Schroff, Burghardt Wittig, Alfredo Zurlo. Pharmacokinetics and pharmacodynamics of the immunotherapeutic TLR-9 agonist MGN1703 – conclusions by comparison of data from clinical trials with healthy volunteers and cancer patients. [abstract]. In: Proceedings of the CRI-CIMT-EATI-AACR Inaugural International Cancer Immunotherapy Conference: Translating Science into Survival; September 16-19, 2015; New York, NY. Philadelphia (PA): AACR; Cancer Immunol Res 2016;4(1 Suppl):Abstract nr A035.

Immune response of healthy horses to DNA constructs formulated with a cationic lipid transfection reagent

Background

Deoxyribonucleic acid (DNA) vaccines are used for experimental immunotherapy of equine melanoma. The injection of complexed linear DNA encoding interleukin (IL)-12/IL-18 induced partial tumour remission in a clinical study including 27 grey horses. To date, the detailed mechanism of the anti-tumour effect of this treatment is unknown.

Results

In the present study, the clinical and cellular responses of 24 healthy horses were monitored over 72 h after simultaneous intradermal and intramuscular application of equine IL-12/IL-18 DNA (complexed with a transfection reagent) or comparative substances (transfection reagent only, nonsense DNA, nonsense DNA depleted of CG).

Although the strongest effect was observed in horses treated with expressing DNA, horses in all groups treated with DNA showed systemic responses. In these horses treated with DNA, rectal temperatures were elevated after treatment and serum amyloid A increased. Total leukocyte and neutrophil counts increased, while lymphocyte numbers decreased. The secretion of tumour necrosis factor alpha (TNFα) and interferon gamma (IFNγ) from peripheral mononuclear blood cells ex vivo increased after treatments with DNA, while IL-10 secretion decreased. Horses treated with DNA had significantly higher myeloid cell numbers and chemokine (C-X-C motif) ligand (CXCL)-10 expression in skin samples at the intradermal injection sites compared to horses treated with transfection reagent only, suggesting an inflammatory response to DNA treatment.

In horses treated with expressing DNA, however, local CXCL-10 expression was highest and immunohistochemistry revealed more intradermal IL-12-positive cells when compared to the other treatment groups.

In contrast to non-grey horses, grey horses showed fewer effects of DNA treatments on blood lymphocyte counts, TNFα secretion and myeloid cell infiltration in the dermis.

Conclusion

Treatment with complexed linear DNA constructs induced an inflammatory response independent of the coding sequence and of CG motif content. Expressing IL-12/IL-18 DNA locally induces expression of the downstream mediator CXCL-10.

The grey horses included appeared to display an attenuated immune response to DNA treatment, although grey horses bearing melanoma responded to this treatment with moderate tumour remission in a preceding study. Whether the different immunological reactivity compared to other horses may contributes to the melanoma susceptibility of grey horses remains to be elucidated.

Electronic supplementary material

The online version of this article (doi:10.1186/s12917-015-0452-3) contains supplementary material, which is available to authorized users.

Local and systemic effect of transfection-reagent formulated DNA vectors on equine melanoma

Background

Equine melanoma has a high incidence in grey horses. Xenogenic DNA vaccination may represent a promising therapeutic approach against equine melanoma as it successfully induced an immunological response in other species suffering from melanoma and in healthy horses. In a clinical study, twenty-seven, grey, melanoma-bearing, horses were assigned to three groups (n = 9) and vaccinated on days 1, 22, and 78 with DNA vectors encoding for equine (eq) IL-12 and IL-18 alone or in combination with either human glycoprotein (hgp) 100 or human tyrosinase (htyr). Horses were vaccinated intramuscularly, and one selected melanoma was locally treated by intradermal peritumoral injection. Prior to each injection and on day 120, the sizes of up to nine melanoma lesions per horse were measured by caliper and ultrasound. Specific serum antibodies against hgp100 and htyr were measured using cell based flow-cytometric assays. An Analysis of Variance (ANOVA) for repeated measurements was performed to identify statistically significant influences on the relative tumor volume. For post-hoc testing a Tukey-Kramer Multiple-Comparison Test was performed to compare the relative volumes on the different examination days. An ANOVA for repeated measurements was performed to analyse changes in body temperature over time. A one-way ANOVA was used to evaluate differences in body temperature between the groups. A p–value < 0.05 was considered significant for all statistical tests applied.

Results

In all groups, the relative tumor volume decreased significantly to 79.1 ± 26.91% by day 120 (p < 0.0001, Tukey-Kramer Multiple-Comparison Test). Affiliation to treatment group, local treatment and examination modality had no significant influence on the results (ANOVA for repeated measurements). Neither a cellular nor a humoral immune response directed against htyr or hgp100 was detected. Horses had an increased body temperature on the day after vaccination.

Conclusions

This is the first clinical report on a systemic effect against equine melanoma following treatment with DNA vectors encoding eqIL12 and eqIL18 and formulated with a transfection reagent. Addition of DNA vectors encoding hgp100 respectively htyr did not potentiate this effect.

Electronic supplementary material

The online version of this article (doi:10.1186/s12917-015-0422-9) contains supplementary material, which is available to authorized users.

Local and systemic effect of transfection-reagent formulated DNA vectors on equine melanoma

Background

Equine melanoma has a high incidence in grey horses. Xenogenic DNA vaccination may represent a promising therapeutic approach against equine melanoma as it successfully induced an immunological response in other species suffering from melanoma and in healthy horses. In a clinical study, twenty-seven, grey, melanoma-bearing, horses were assigned to three groups (n = 9) and vaccinated on days 1, 22, and 78 with DNA vectors encoding for equine (eq) IL-12 and IL-18 alone or in combination with either human glycoprotein (hgp) 100 or human tyrosinase (htyr). Horses were vaccinated intramuscularly, and one selected melanoma was locally treated by intradermal peritumoral injection. Prior to each injection and on day 120, the sizes of up to nine melanoma lesions per horse were measured by caliper and ultrasound. Specific serum antibodies against hgp100 and htyr were measured using cell based flow-cytometric assays. An Analysis of Variance (ANOVA) for repeated measurements was performed to identify statistically significant influences on the relative tumor volume. For post-hoc testing a Tukey-Kramer Multiple-Comparison Test was performed to compare the relative volumes on the different examination days. An ANOVA for repeated measurements was performed to analyse changes in body temperature over time. A one-way ANOVA was used to evaluate differences in body temperature between the groups. A p–value < 0.05 was considered significant for all statistical tests applied.

Results

In all groups, the relative tumor volume decreased significantly to 79.1 ± 26.91% by day 120 (p < 0.0001, Tukey-Kramer Multiple-Comparison Test). Affiliation to treatment group, local treatment and examination modality had no significant influence on the results (ANOVA for repeated measurements). Neither a cellular nor a humoral immune response directed against htyr or hgp100 was detected. Horses had an increased body temperature on the day after vaccination.

Conclusions

This is the first clinical report on a systemic effect against equine melanoma following treatment with DNA vectors encoding eqIL12 and eqIL18 and formulated with a transfection reagent. Addition of DNA vectors encoding hgp100 respectively htyr did not potentiate this effect.

Electronic supplementary material

The online version of this article (doi:10.1186/s12917-015-0414-9) contains supplementary material, which is available to authorized users.

Modular multiantigen T cell epitope-enriched DNA vaccine against human leishmaniasis

The leishmaniases are protozoal diseases that severely affect large populations in tropical and subtropical regions. There are only limited treatment options and preventative measures. Vaccines will be important for prevention, control and elimination of leishmaniasis, and could reduce the transmission and burden of disease in endemic populations. We report the development of a DNA vaccine against leishmaniasis that induced T cell-based immunity and is a candidate for clinical trials. The vaccine antigens were selected as conserved in various Leishmania species, different endemic regions, and over time. They were tested with T cells from individuals cured of leishmaniasis, and shown to be immunogenic and to induce CD4(+) and CD8(+) T cell responses in genetically diverse human populations of different endemic regions. The vaccine proved protective in a rodent model of infection. Thus, the immunogenicity of candidate vaccine antigens in human populations of endemic regions, as well as proof of principle for induction of specific immune responses and protection against Leishmania infection in mice, provides a viable strategy for T cell vaccine development.

Cationic lipid-formulated DNA vaccine against hepatitis B virus: immunogenicity of MIDGE-Th1 vectors encoding small and large surface antigen in comparison to a licensed protein vaccine

Currently marketed vaccines against hepatitis B virus (HBV) based on the small (S) hepatitis B surface antigen (HBsAg) fail to induce a protective immune response in about 10% of vaccinees. DNA vaccination and the inclusion of PreS1 and PreS2 domains of HBsAg have been reported to represent feasible strategies to improve the efficacy of HBV vaccines. Here, we evaluated the immunogenicity of SAINT-18-formulated MIDGE-Th1 vectors encoding the S or the large (L) protein of HBsAg in mice and pigs. In both animal models, vectors encoding the secretion-competent S protein induced stronger humoral responses than vectors encoding the L protein, which was shown to be retained mainly intracellularly despite the presence of a heterologous secretion signal. In pigs, SAINT-18-formulated MIDGE-Th1 vectors encoding the S protein elicited an immune response of the same magnitude as the licensed protein vaccine Engerix-B, with S protein-specific antibody levels significantly higher than those considered protective in humans, and lasting for at least six months after the third immunization. Thus, our results provide not only the proof of concept for the SAINT-18-formulated MIDGE-Th1 vector approach but also confirm that with a cationic-lipid formulation, a DNA vaccine at a relatively low dose can elicit an immune response similar to a human dose of an aluminum hydroxide-adjuvanted protein vaccine in large animals.

Combination of MIDGE-Th1 DNA vaccines with the cationic lipid SAINT-18: studies on formulation, biodistribution and vector clearance

We have previously shown that the combination of MIDGE-Th1 DNA vectors with the cationic lipid SAINT-18 increases the immune response to the encoded antigen in mice. Here, we report on experiments to further optimize and characterize this approach. We evaluated different formulations of MIDGE-Th1 vectors with SAINT-18 by assessing their influence on the transfection efficiency in cell culture and on the immune response in mice. We found that high amounts of SAINT-18 in formulations with a w/w ratio MIDGE Th1/SAINT-18 of 1:4.8 are beneficial for cell transfection in vitro. In contrast, the formulation of HBsAg-encoding MIDGE-Th1 DNA vectors with the lowest amount of SAINT-18 (w/w ratio MIDGE Th1/SAINT-18 of 1:0.5) resulted in the highest serum IgG1 and IgG2a levels after intradermal immunization of mice. Consequently, latter formulation was selected for a comparative biodistribution study in rats. Following intradermal administration of both naked and formulated MIDGE-Th1 DNA, the vectors localized primarily at the site of injection. Vector DNA levels decreased substantially over the two months duration of the study. When administered in combination with SAINT-18, the vectors were found in significantly higher amounts in draining lymph nodes in comparison to administration of naked MIDGE-Th1 DNA. We propose that the high immune responses induced by MIDGE-Th1/SAINT-18 lipoplexes are mediated by enhanced transfection of cells in vivo, resulting in stronger antigen expression and presentation. Importantly, the combination of MIDGE-Th1 vectors with SAINT-18 was well tolerated in mice and rats and is expected to be safe in human clinical applications.

Effect of different nuclear localization sequences on the immune responses induced by a MIDGE vector encoding bovine herpesvirus-1 glycoprotein D

To optimize the efficiency of a Minimalistic Immunogenically Defined Gene Expression (MIDGE) vector, peptides containing proven (SV40 T-antigen and bovine herpesvirus-1 VP8) or putative (herpes simplex virus-1 VP22) nuclear localization signals (NLSs) were linked to a MIDGE vector encoding a truncated, secreted form of BHV-1 glycoprotein D (tgD) (MIDGE-tgD). Conjugation of an NLS to the MIDGE-tgD vector improved the tgD expression in vitro and the humoral and cellular immune responses induced in mice in vivo. The NLS from BHV-1 VP8 was most efficient at enhancing the tgD production and tgD-specific immune responses when conjugated to the MIDGE-tgD vector.

Up-regulation by feline interleukin-4 and down-regulation by feline interferon-gamma of major histocompatibility complex class II on cat B-lymphocytes

Interleukin-4 (IL-4) exhibits numerous biological and immunoregulatory functions on B- and T-lymphocytes, monocytes, and dendritic cells in both mice and humans. In the present study, we show that IL-4 also has a regulatory function in the cat species. Cells transfected with IL-4 DNA expressed a biologically active protein as demonstrated by the up-regulation of MHC class II molecules on B-lymphocytes (CD21(+)) in a flow cytometric assay. Increased levels of MHC class II expression on CD21(+) cells were seen in 11 out of 12 cats (p<0.05). In addition, 12 out of 12 cats showed up-regulation of MHC class II on CD21(-) cells, mainly consisting of T-lymphocytes (p<0.05). In contrast, concanavalin A (ConA)-induced culture supernatant from peripheral blood mononuclear cells (PBMCs) containing high levels of interferon-gamma (IFN-gamma) transcripts induced down-regulation of MHC class II molecules on CD21(+) cells of all samples (p<0.05). Variable results were observed for CD21(-) cells incubated with ConA-conditioned medium (p=0.71). The nature of the cytokine(s) responsible for these effects remains to be determined. However, the fact that down-regulation of MHC class II molecules on B cells occurred in all cats tested suggests that IFN-gamma may be involved. These data provide further insight into the mechanism by which MHC class II expression is regulated in feline lymphocytes, and suggest that the Th1/Th2 paradigm is also present in the cat.

Ceftriaxone compared with doxycycline for the treatment of acute disseminated Lyme disease

BACKGROUND

Localized Lyme disease, manifested by erythema migrans, is usually treated with oral doxycycline or amoxicillin. Whether acute disseminated Borrelia burgdorferi infection should be treated differently from localized infection is unknown.

METHODS

We conducted a prospective, open-label, randomized, multicenter study comparing parenteral ceftriaxone (2 g once daily for 14 days) with oral doxycycline (100 mg twice daily for 21 days) in patients with acute disseminated B. burgdorferi infection but without meningitis. The erythema migrans skin lesion was required for study entry, and disseminated disease had to be indicated by either multiple erythema migrans lesions or objective evidence of organ involvement.

RESULTS

Of 140 patients enrolled, 133 had multiple erythema migrans lesions. Both treatments were highly effective. Rates of clinical cure at the last evaluation were similar among the patients treated with ceftriaxone (85 percent) and those treated with doxycycline (88 percent); treatment was considered to have failed in only one patient in each group. Among patients whose infections were cured, 18 of 67 patients in the ceftriaxone group (27 percent) reported one or more residual symptoms at the last follow-up visit, as did 10 of 71 patients in the doxycycline group (14 percent, P > or = 0.05). Mild arthralgia was the most common persistent symptom. Both regimens were well tolerated; only four patients (6 percent) in each group withdrew because of adverse events.

CONCLUSIONS

In patients with acute disseminated Lyme disease but without meningitis, oral doxycycline and parenterally administered ceftriaxone were equally effective in preventing the late manifestations of disease.