LCL161

As small-molecule second mitochondria-derived activator of caspases (SMAC) mimetics have been shown to increase OV-mediated death in cancer models, we used the SMAC mimetics LCL-161 and birinapant alongside MG1 to enhance the killing of HIV-infected cell lines and monocyte-derived macrophages (MDMs). This cell death occurs via both caspase-dependent and caspase-independent mechanisms and is not completely dependent on tumor necrosis factor alpha (TNFα). Together, these results show that the use of SMAC mimetics alongside OVs may be a viable strategy to eradicate latently/persistently HIV-infected cells.

In vitro, corilagin inhibits necroptosis induced by either tuberculosis, tumor necrosis factor-α (TNF-α), LCL-161, and inhibitor (IDN-6556) (TSI) (tumor necrosis TNF-α combined with LCL-161 (a Smac mimic) and pan-caspase inhibitor IDN-6556), or lipopolysaccharide (LPS) with IDN-6556. In a mouse model of sepsis associated with necroptosis, corilagin administration reduces the severity of LPS-induced acute lung injury, correlating with decreased MLKL phosphorylation in lung tissues. These results indicate that corilagin attenuates RIPK1/RIPK3/MLKL signaling, potentially through reducing mtROS production, thereby inhibiting necroptosis and offering protection against LPS-induced acute lung injury.

In a MECOM-r AML PDX model, mivebresib with dactolisib or LCL161, was superior to monotherapy or vehicle in reducing AML burden and increasing mouse survival. These findings highlight that cotreatment with BETi and PI3K/mTOR or IAP inhibitor exerts superior in vitro and in vivo efficacy in MECOM-r AML cells and support further evaluation of these BETi-based combinations.

Pharmacologic reprogramming with the SMAC mimetic LCL161 in combination with T-cell-derived cytokines can induce macrophages to phagocytose live cancer cells in mouse models...Unlike mouse macrophages, where a combination of SMAC mimetics with lymphotoxin enhanced phagocytosis, human macrophages were more efficiently polarized to phagocytose live cells by the combination of SMAC mimetics and IFNg. We profiled phagocytic macrophages by transcriptional and proteomic methodologies, uncovering a positive feedback loop of autocrine TNFa production.

Kaempferol acts as a multi-target therapeutic agent in CCA by inducing ER stress, autophagy, and triggering necroptosis when combined with zVAD-FMK and LCL-161, while enhancing immunogenic cell death. These findings support its potential as a novel immunogenic cell death-based treatment strategy for CCA.

The Smac Mimetic LCL161 reduced both FMR1 and cellular inhibitor of apoptosis protein 2 (cIAP2) levels...Collectively, our findings highlight FMR1's growth-promoting role in gastric cancer and reveal a novel function of cIAP2 in stabilizing FMR1 as an E3 ligase. These results suggest targeting cIAP2 could be an effective strategy for treating gastric cancer by downregulating both cIAP2 and FMR1.

Monotherapy with cIAP2 inhibitor LCL161 is sufficient to treat HNF1A+ models of mCRPC previously resistant to docetaxel. These data may be useful in future clinical trial designs.

Pharmacologic reprogramming with the SMAC mimetic LCL161 in combination with T cell-derived cytokines can induce macrophages to phagocytose live cancer cells in mouse models...Unlike mouse macrophages where combination of SMAC mimetics with lymphotoxin enhanced phagocytosis, human macrophages were more efficiently polarized to phagocytose live cells by the combination of SMAC mimetics and IFNψ. We profiled phagocytic macrophages by transcriptional and proteomic methodologies, uncovering a positive feedback loop of autocrine TNFα production.

This study demonstrates the therapeutic potential of venetoclax in combination with ATO in vitro and strongly encourages further investigation of relapsed/refractory APL with high BCL2 expression.

Patients with higher CuScores had lower TMB and were more sensitive to Sapitinib and LCL161, while those with lower CuScores might respond better to anti-PD1 therapy. The identified copper metabolism-related gene signature has the potential to predict prognosis and guide clinical treatment for BC. Among these genes, MMP13 may act as a malignant factor in BC.

The XIRP2 mutation was linked to alterations in the sensitivity of fludarabine, oxaliplatin, WEHI-539, and LCL-161. Mechanically, the inhibition of XIRP2 resulted in a significant increase in sensitivity to oxaliplatin through an elevation in zinc ions and a calcium ion overload. In conclusion, the XIRP2 mutation holds potential as a biomarker for predicting the prognosis and drug sensitivity of HCC and serves as a therapeutic target to enhance the efficacy of oxaliplatin.

Current cytotoxic T lymphocyte (CTL) activating immunotherapy requires a major histocompatibility complex I (MHC-I)-mediated presentation of tumor-associated antigens, which malfunctions in around half of patients with triple-negative breast cancer (TNBC). LMNs inhibit the growth of MHC-I-deficient TNBC tumors, as well as those resistant to combined therapy of anti-PDL1 antibody and albumin-bound paclitaxel, and prolong the survival of animals, during which process CTLs also play important roles. This macrophage membrane-decorated nanoparticle presents a generalizable platform for increasing macrophage-mediated antitumor immunity for effective immunotherapy of MHC-I-deficient cancers.