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BackgroundCombining immunotherapy and antiangiogenic agents is a promising treatment strategy in endometrial cancer. To date, no biomarkers for response have been identified and data on post-immunotherapy progression are lacking. We explored the combination of a checkpoint inhibitor (nivolumab) and an antiangiogenic agent (cabozantinib) in immunotherapy-naïve endometrial cancer and in patients whose disease progressed on previous immunotherapy with baseline biopsy for immune profiling.Patients and methodsIn this phase II trial (ClinicalTrials.gov NCT03367741, registered December 11, 2017), women with recurrent endometrial cancer were randomized 2:1 to nivolumab with cabozantinib (Arm A) or nivolumab alone (Arm B). The primary endpoint was Response Evaluation Criteria in Solid Tumors-defined progression-free survival (PFS). Patients with carcinosarcoma or prior immune checkpoint inhibitor received combination treatment (Arm C). Baseline biopsy and serial peripheral blood mononuclear cell (PBMC) samples were analyzed and associations between patient outcome and immune data from cytometry by time of flight (CyTOF) and PBMCs were explored.ResultsMedian PFS was 5.3 (90% CI 3.5 to 9.2) months in Arm A (n=36) and 1.9 (90% CI 1.6 to 3.4) months in Arm B (n=18) (HR=0.59, 90% CI 0.35 to 0.98; log-rank p=0.09, meeting the prespecified statistical significance criteria). The most common treatment-related adverse events in Arm A were diarrhea (50%) and elevated liver enzymes (aspartate aminotransferase 47%, alanine aminotransferase 42%). In-depth baseline CyTOF analysis across treatment arms (n=40) identified 35 immune-cell subsets. Among immunotherapy-pretreated patients in Arm C, non-progressors had significantly higher proportions of activated tissue-resident (CD103+CD69+) ɣδ T cells than progressors (adjusted p=0.009).ConclusionsAdding cabozantinib to nivolumab significantly improved outcomes in heavily pretreated endometrial cancer. A subgroup of immunotherapy-pretreated patients identified by baseline immune profile and potentially benefiting from combination with antiangiogenics requires further investigation.

Background Salivary duct carcinoma (SDC) is a rare and aggressive subtype of salivary gland cancer, frequently associated with incurable recurrences and distant metastases (R/M). Proliferation of SDC relies on androgen receptor (AR) signalling, prompting the use of combined androgen blockade (CAB, i.e. , luteinizing hormone-releasing hormone agonist and/or AR antagonists) to R/M SDC patients. However, only a subset of patients benefits from such treatments. We have shown that response to CAB is associated with steroid 5α-reductase 1 ( SRD5A1 ) mRNA expression. SRD5A1 catalyses the intracellular conversion of testosterone into the more potent AR-agonist dihydrotestosterone. This conversion can be inhibited by dutasteride, a potent SRD5A1-inhibitor, which is currently prescribed for benign prostatic hyperplasia. We hypothesize that repurposing dutasteride to target AR signalling in SDC could enhance therapeutic response and clinical outcome in SDC patients. Methods This prospective, open-label, randomized controlled phase II clinical trial, is designed to investigate whether dutasteride as an adjunct drug to CAB improves response rate and clinical outcome in patients with AR-positive R/M SDC. Patients are divided in two cohorts based on their prior systemic treatments. In cohort A, CAB-naïve patients ( n  = 74) will be randomly assigned to either a control arm (Arm 1) receiving CAB (goserelin 10.8 mg/3m and bicalutamide 50 mg/OD) or an experimental arm (Arm 2) where dutasteride (0.5 mg/OD) is added to the CAB regimen. In cohort B, patients with disease progression after adjuvant or first-line palliative CAB therapy (max. n  = 24) will receive goserelin, bicalutamide, and dutasteride to assess whether the addition of dutasteride can overcome therapy resistance. The primary endpoints are the objective response rate and duration of response. Secondary endpoints are progression-free survival, overall survival, clinical benefit rate, quality of life, and safety. Translational research will be performed to explore molecular target expression differences and their correlation with clinical outcome. Discussion The DUCT study addresses an unmet medical need by investigating the repurposing of dutasteride to enhance treatment response and improve clinical outcome for patients with R/M SDC, especially those with limited alternative treatment options, such as HER2-negative cases. By repurposing a registered low-cost drug, this trial’s findings could be readily applied into clinical practice. Trial registration Clinicaltrials.gov Identifier: NCT05513365. Date of registration: August 24, 2022. Protocol version Current protocol version 4.0, February 21, 2024.

Atherosclerotic cardiovascular disease is a major problem despite the availability of drugs that influence major risk factors. New treatments are needed, and there is growing interest in therapies that may have multiple actions. Thyroid hormone modulates several cardiovascular risk factors and delays atherosclerosis progression in humans. However, use of thyroid hormone is limited by side effects, especially in the heart. To overcome this limitation, pharmacologically selective thyromimetics that mimic metabolic effects of thyroid hormone and bypass side effects are under development. In animal models, such thyromimetics have been shown to stimulate cholesterol elimination through LDL and HDL pathways and decrease body weight without eliciting side effects. We report here studies on a selective thyromimetic [KB2115; (3-[[3,5-dibromo-4-[4-hydroxy-3-(1-methylethyl)-phenoxy]-phenyl]-amino]-3-oxopropanoic acid)] in humans. In moderately overweight and hypercholesterolemic subjects KB2115 was found to be safe and well tolerated and elicited up to a 40% lowering of total and LDL cholesterol after 14 days of treatment. Bile acid synthesis was stimulated without evidence of increased cholesterol production, indicating that KB2115 induced net cholesterol excretion. KB2115 did not provoke detectable effects on the heart, suggesting that the pharmacological selectivity observed in animal models translates to humans. Thus, selective thyromimetics deserve further study as agents to treat dyslipidemia and other risk factors for atherosclerosis.

BackgroundAntiangiogenics combined with immune checkpoint blockade have become standard of care for recurrent endometrial cancer after standard platinum-based chemotherapy. To dissect mechanisms and define biomarkers associated with clinical outcomes to these combinations, we applied multidimensional immune monitoring to peripheral blood specimens collected from a randomized phase 2 trial of nivolumab with or without cabozantinib in 75 evaluable patients with recurrent endometrial cancer (NCI ETCTN 10104, NCT03367741). This trial demonstrated superiority of the combination to nivolumab alone.Methods and resultsUsing Olink proteomics, mass cytometry, tumor antigen-specific ELISA, and whole exome tumor sequencing, we identified longitudinal immune signatures specific to cabozantinib use, including an increase in plasma HO-1 and reduction in plasma vascular endothelial growth factor receptor 2, interleukin-12, and circulating plasmacytoid dendritic cells. Prior exposure to immunotherapy and carcinosarcoma histology had no adverse impact on clinical benefit or biomarkers, and copy-number high tumors were associated with increased plasma granzymes on combination treatment. Higher baseline plasma levels of myeloid-related markers (chemokine ligand 23/CCL23, colony-stimulating factor-1/macrophage colony-stimulating factor/CSF1) were associated with poor overall and progression-free survival, and lack of clinical benefit (defined as progressive or stable disease <6 months) following combination treatment (Kaplan-Meier, multivariate Cox, false discover rate <0.05). Patients with favorable outcomes had higher levels of activated T-cell markers (plasma ICOS-L, CD28) and exhibited spontaneous autoantibody titers to tumor antigen NY-ESO-1. Patients experiencing severe adverse events from the combination therapy had higher baseline levels of neutrophil-derived markers (CXCL1).ConclusionsOverall, this study highlights potential resistance and response mechanisms to nivolumab+cabozantinib and suggests prioritizing combination treatment in patients with activated T-cell immunogenicity profiles while exploring future combinatorial therapies targeting myeloid populations to overcome resistance.

Over the past 10 years, sorafenib has been the only systemic agent approved for the treatment of patients with unresectable hepatocellular carcinoma. Recently, lenvatinib was demonstrated noninferior to sorafenib, and regorafenib and ramucirumab were demonstrated superior to placebo in patients progressing on sorafenib and in patients with elevated α-fetoprotein-failing sorafenib, respectively. Phase I–II trials of immune checkpoint inhibitors reported promising efficacy signals. Recently, the randomized, placebo-controlled, Phase III CELESTIAL trial demonstrated statistically and clinically significant increase in overall survival from 8 months with placebo to 10.2 months with cabozantinib in patients failing sorafenib. Furthermore, the study showed a significant improvement in all the efficacy end points. Main adverse events were palmar–plantar erythrodysesthesia, hypertension, increased aspartate aminotransferase, fatigue and diarrhea. Over the past 10 years, sorafenib, an antiangiogenic drug acting as a multikinase inhibitor, has been the only systemic agent approved for first-line treatment of unresectable hepatocellular carcinoma. Despite several disappointing results, in patients-failing sorafenib, other compounds with similar (but not overlapping) properties have been recently shown to prolong survival, thereby confirming the role of a sustained antiangiogenic inhibition in further lines of treatment. Here, we will discuss data on cabozantinib, which displays both antiangiogenic- and MET-inhibiting properties, and was reported in 2018 to increase survival in the context of second- and third-line treatment of hepatocellular carcinoma patients.

Purpose Vismodegib, a first-in-class oral hedgehog pathway inhibitor, is an effective treatment for advanced basal cell carcinoma. Based on in vitro data, a clinical drug–drug interaction (DDI) assessment of cytochrome P450 (CYP) 2C8 was necessary; vismodegib’s teratogenic potential warranted a DDI study with oral contraceptives (OCs). Methods This single-arm, open-label study included two cohorts of patients with locally advanced or metastatic solid malignancies [Cohort 1: rosiglitazone 4 mg (selective CYP2C8 probe); Cohort 2: OC (norethindrone 1 mg/ethinyl estradiol 35 μg; CYP3A4 substrate)]. On Day 1, patients received rosiglitazone or OC. On Days 2–7, patients received vismodegib 150 mg/day. On Day 8, patients received vismodegib plus rosiglitazone or OC. The effect of vismodegib on rosiglitazone and OC pharmacokinetic parameters (primary objective) was evaluated through pharmacokinetic sampling over a 24-h period (Days 1 and 8). Results The mean ± SD vismodegib steady-state plasma concentration (Day 8, N  = 51) was 20.6 ± 9.72 μM (range 7.93–62.4 μM). Rosiglitazone AUC 0–inf and C max were similar with concomitant vismodegib [≤8 % change in geometric mean ratios (GMRs); N  = 24]. Concomitant vismodegib with OC did not affect ethinyl estradiol AUC 0–inf and C max (≤5 % change in GMRs; N  = 27); norethindrone C max and AUC 0–inf GMRs were higher (12 and 23 %, respectively) with concomitant vismodegib. Conclusions This DDI study in patients with cancer demonstrated that systemic exposure of rosiglitazone (a CYP2C8 substrate) or OC (ethinyl estradiol/norethindrone) is not altered with concomitant vismodegib. Overall, there appears to be a low potential for DDIs when vismodegib is co-administered with other medications.

Structural studies show that the activity of the G-protein-coupled receptor Smoothened is modulated by ligand-regulated interactions between its extracellular and transmembrane domains. Developmental signals of the Hedgehog (Hh) and Wnt families are transduced across the membrane by Frizzled-class G-protein-coupled receptors (GPCRs) composed of both a heptahelical transmembrane domain (TMD) and an extracellular cysteine-rich domain (CRD). How the large extracellular domains of GPCRs regulate signalling by the TMD is unknown. We present crystal structures of the Hh signal transducer and oncoprotein Smoothened, a GPCR that contains two distinct ligand-binding sites: one in its TMD and one in the CRD. The CRD is stacked atop the TMD, separated by an intervening wedge-like linker domain. Structure-guided mutations show that the interface between the CRD, linker domain and TMD stabilizes the inactive state of Smoothened. Unexpectedly, we find a cholesterol molecule bound to Smoothened in the CRD binding site. Mutations predicted to prevent cholesterol binding impair the ability of Smoothened to transmit native Hh signals. Binding of a clinically used antagonist, vismodegib, to the TMD induces a conformational change that is propagated to the CRD, resulting in loss of cholesterol from the CRD–linker domain–TMD interface. Our results clarify the structural mechanism by which the activity of a GPCR is controlled by ligand-regulated interactions between its extracellular and transmembrane domains. Smoothened structure — with added cholesterol Smoothened (SMO) is a G-protein-coupled receptor that transduces Hedgehog (Hh) signals across the membrane in all animals. Despite being a key developmental regulator, oncoprotein and drug target in oncology, the mechanism by which SMO is activated has remained unknown. These authors solve the 3.2 Å crystal structure of SMO containing its extracellular cysteine-rich (CRD), linker and heptahelical G-protein-coupled receptor (TMD) domains. Surprisingly, a cholesterol molecule was bound to SMO in the CRD binding site. Mutations predicted to prevent cholesterol binding impair the ability of SMO to transmit native Hh signals. Binding of the potent antagonist and anti-cancer drug vismodegib leads to a number of conformational changes and the loss of cholesterol from the CRD–linker domain–TMD interface.

Osteoarthritis (OA) is a degenerative joint disease that involves the destruction of articular cartilage and eventually leads to disability. Molecules that promote the selective differentiation of multipotent mesenchymal stem cells (MSCs) into chondrocytes may stimulate the repair of damaged cartilage. Using an image-based high-throughput screen, we identified the small molecule kartogenin, which promotes chondrocyte differentiation (median effective concentration = 100 nM), shows chondroprotective effects in vitro, and is efficacious in two OA animal models. Kartogenin binds filamin A, disrupts its interaction with the transcription factor core-binding factor β subunit (CBFβ), and induces chondrogenesis by regulating the CBFβ-RUNX1 transcriptional program. This work provides new insights into the control of chondrogenesis that may ultimately lead to a stem cell— based therapy for osteoarthritis.

Nanoscale drug delivery vehicles can facilitate multimodal therapies of cancer by promoting tumour-selective drug release. However, few are effective because cancer cells develop ways to resist and evade treatment. Here, we introduce a photoactivable multi-inhibitor nanoliposome (PMIL) that imparts light-induced cytotoxicity in synchrony with a photoinitiated and sustained release of inhibitors that suppress tumour regrowth and treatment escape signalling pathways. The PMIL consists of a nanoliposome doped with a photoactivable chromophore (benzoporphyrin derivative, BPD) in the lipid bilayer, and a nanoparticle containing cabozantinib (XL184)—a multikinase inhibitor—encapsulated inside. Near-infrared tumour irradiation, following intravenous PMIL administration, triggers photodynamic damage of tumour cells and microvessels, and simultaneously initiates release of XL184 inside the tumour. A single PMIL treatment achieves prolonged tumour reduction in two mouse models and suppresses metastatic escape in an orthotopic pancreatic tumour model. The PMIL offers new prospects for cancer therapy by enabling spatiotemporal control of drug release while reducing systemic drug exposure and associated toxicities. A photoactivatable nanoliposome carrying multikinase inhibitors tackles tumours by killing cancer cells through photodynamic therapy and simultaneously shutting down signalling pathways that allow cancerous cells to metastasize and escape treatment, offering a way to maximize the therapeutic efficacy of each treatment cycle.

A new chimaeric mouse model of metastatic castration-resistant prostate cancer to efficiently test combination therapies in an autochthonous setting. Combination cancer therapies Metastatic castration-resistant prostate cancer (mCRPC) does not show strong responses to immunotherapies, such as immune checkpoint blockade (ICB), which have produced durable therapeutic responses in other cancer types. The authors develop a new chimaeric mouse model of mCRPC in which they test different combinations of immunotherapies, including ICB, and targeted therapies. They found that the most efficacious combinations were those that depleted myeloid-derived suppressor cells, suggesting the potential clinical relevance of this cell population. A significant fraction of patients with advanced prostate cancer treated with androgen deprivation therapy experience relapse with relentless progression to lethal metastatic castration-resistant prostate cancer (mCRPC) 1 . Immune checkpoint blockade using antibodies against cytotoxic-T-lymphocyte-associated protein 4 (CTLA4) or programmed cell death 1/programmed cell death 1 ligand 1 (PD1/PD-L1) generates durable therapeutic responses in a significant subset of patients across a variety of cancer types 2 . However, mCRPC showed overwhelming de novo resistance to immune checkpoint blockade 3 , 4 , 5 , motivating a search for targeted therapies that overcome this resistance. Myeloid-derived suppressor cells (MDSCs) are known to play important roles in tumour immune evasion 6 . The abundance of circulating MDSCs correlates with prostate-specific antigen levels and metastasis in patients with prostate cancer 7 , 8 , 9 . Mouse models of prostate cancer show that MDSCs (CD11b + Gr1 + ) promote tumour initiation 10 and progression 11 . These observations prompted us to hypothesize that robust immunotherapy responses in mCRPC may be elicited by the combined actions of immune checkpoint blockade agents together with targeted agents that neutralize MDSCs yet preserve T-cell function. Here we develop a novel chimaeric mouse model of mCRPC to efficiently test combination therapies in an autochthonous setting. Combination of anti-CTLA4 and anti-PD1 engendered only modest efficacy. Targeted therapy against mCRPC-infiltrating MDSCs, using multikinase inhibitors such as cabozantinib and BEZ235, also showed minimal anti-tumour activities. Strikingly, primary and metastatic CRPC showed robust synergistic responses when immune checkpoint blockade was combined with MDSC-targeted therapy. Mechanistically, combination therapy efficacy stemmed from the upregulation of interleukin-1 receptor antagonist and suppression of MDSC-promoting cytokines secreted by prostate cancer cells. These observations illuminate a clinical path hypothesis for combining immune checkpoint blockade with MDSC-targeted therapies in the treatment of mCRPC.