Table 2.
Preclinical research works about inflammasome interventions
| Type of interventions | Agents | Type of diseases | Outcomes | References |
|---|---|---|---|---|
| NLRP3 inhibitor | MCC950 | Colorectal carcinoma | MCC950 reverses FL118-induced pyroptosis | [216] |
| Pancreatic cancer | MCC950 abrogates NLRP3/caspase-1/IL-1β-mediated cell proliferation | [159] | ||
| Head and neck squamous cell carcinoma | MCC950 reduces MDSCs, Tregs, and TAMs while increasing CD4+ and CD8+ T cells in TME where NLRP3 is overexpressed | [203] | ||
| BAY 11–7082 | T cell leukemia | Apoptosis is induced in T cell leukemia cells by BAY 11–7082 through inhibiting NF-κB | [297] | |
| Gastric cancer | Apoptosis is induced in gastric cancer cells by BAY 11–7082 through inhibiting NF-κB | [298] | ||
| Lupus nephritis | Lupus nephritis is attenuated by BAY 11–7082 through inhibiting both NLRP3 and NF-κB | [299] | ||
| Psoriasis | BAY 11–7082 protects animal models from psoriasis through inhibiting both NLRP3 and NF-κB | [300] | ||
| ACT001 | Parkinson’s disease | ACT001 ameliorates NLRP3-mediated neuroinflammation in animal models of Parkinson’s disease | [260] | |
| Isoliquiritigenin | Diet-induced insulin resistance | Isoliquiritigenin inhibits diet-induced insulin resistance through inhibiting NLRP3 activation | [256] | |
| Tranilast | Gouty arthritis, cryopyrin-associated autoinflammatory syndromes, and type 2 diabetes | Tranilast shows preventive or therapeutic efficacy in three mouse models of NLRP3-related diseases | [250] | |
| Atherosclerosis | Tranilast dampens the initiation and progression of atherosclerosis through enhancing NLRP3 ubiquitination | [301] | ||
| NSCLC | Tranilast inhibits EMT invasion, and metastasis of lung cancer cell lines | [252] | ||
| Gastric cancer | Tranilast blocks interaction between mesothelial cells and cancer cells resulting in diminished tumor growth and fibrosis | [253] | ||
| OLT1177 | Melanoma | OLT1177 disrupts IL-1β/IL-6/STAT3 axis in tumor cells and reduces immunosuppressive activities in MDSCs | [202] | |
| Melanoma | OLT1177 reduces MDSCs expansion and tumor growth, whose effects could be further improved in combination with anti-PD-1 | [245] | ||
| Alzheimer’s disease | OLT1177 reduces the number of plaques in cortex and rescues cognitive impairment | [302] | ||
| Allergic asthma | Both i.p. and oral treatment of OLT1177 alleviate allergic asthma | [303] | ||
| CY-09 | Breast cancer | CY-09 curbs NLRP3-mediated drug resistance and EMT | [218] | |
| Diet-induced hepatic steatosis | CY-09 ameliorates high-fat diet-induced hepatic steatosis | [304] | ||
| Osteoarthritis | CY-09 attenuates osteoarthritis development through inhibiting NLRP3-mediated pyroptosis of chondrocytes | [305] | ||
| MNS | Pancreatic cancer | MNS inhibits cell invasion, migration, and proliferation. Combination of MNS with cytokine-induced killer cells decreases tumor growth | [306] | |
| Breast cancer | MNS suppresses metastasis properties of cells | [307] | ||
| Burn wound | MNS ameliorates burn wound progression, neutrophil infiltration, and cytokine production by inhibiting NLRP3 | [308] | ||
| Oridonin | Peritonitis, gouty arthritis, and type 2 diabetes | Oridonin shows preventive and therapeutic efficacy in three mouse models of NLRP3-related diseases | [255] | |
| Small cell lung cancer | Oridonin attenuates migration and EMT of cancer cells | [309] | ||
| Oral cancer | Oridonin impedes cell growth | [310] | ||
| Glyburide | Lung cancer | Glyburide attenuates inflammation-related lung tumorigenesis by inhibiting NLRP3 | [311] | |
| BOT-4-one | Urate-induced peritonitis | BOT-4-one shows strong protective effect against urate-induced peritonitis through inhibiting NLRP3 | [312] | |
| Lymphoma | BOT-4-one suppresses proliferation and survival of lymphoma cells | [313] | ||
| Parthenolide | In vitro research | Parthenolide inhibits the activation of NLRP3 | [256] | |
| Glycyrrhizin | In vitro research | Glycyrrhizin inhibits the activation of TLR4, NF-κB, and NLRP3 | [256] | |
| NU9056 | In vitro research | NU9056 inhibits NLRP3 activation indirectly through inhibiting KAT5 | [79] | |
| Methylene blue | Spinal cord injury | Methylene blue alleviates neuroinflammation through inhibiting NLRP3 | [314] | |
| In vitro research | Methylene blue is a broad-spectrum inflammasome inhibitor against NLRP3, NLRC4, AIM2, and non-canonical inflammasomes | [261] | ||
| Pioglitazone | Traumatic brain injury | Pioglitazone treatment decreases expression of IL-1β, caspase-1, and NLRP3 | [315] | |
| Fenamate NSAIDs | Alzheimer’s disease | Fenamate NSAIDs show therapeutic effects in Alzheimer’s disease through inhibiting NLRP3 | [316] | |
| Resveratrol | Renal cancer | Resveratrol suppresses tumor progression through downregulating expression of NLRP3 | [258] | |
| Doxorubicin-induced cardiotoxicity | Resveratrol reduces doxorubicin-induced cardiac injury and systemic inflammation | [259] | ||
| Radiation-induced inflammatory bowel disease | Resveratrol alleviates bowel inflammation after irradiation by repressing NLRP3 expression | [228] | ||
| JC-171 | Multiple sclerosis | JC-171 delays progression of multiple sclerosis by interfering with NLRP3/ASC interaction | [317] | |
| JC-124 | Alzheimer’s disease | JC-124 inhibits NLRP3 and shows neuroprotective effect | [318] | |
| Colchicine | Ischemia–reperfusion injury | Colchicine reduces liver damage in mouse model of renal ischemia–reperfusion injury by downregulating NLRP3, caspase-1, and IL-1β | [319] | |
| IFN39 | In vitro research | IFN39 inhibits NLRP3-ASC speckle formation through blocking NEK7-NLRP3 interaction | [320] | |
| Maxing shigan decoction | Mycoplasma pneumonia infection | Maxing shigan decoction suppresses NLRP3-induced cell pyroptosis and IL-1β production after Mycoplasma pneumonia infection | [321] | |
| Sulforaphane | In vitro research | Sulforaphane attenuates activation of both NLRP3 and NLRC4 | [262] | |
| Ischemia–reperfusion injury | Sulforaphane reduces retinal ischemia–reperfusion injury and reduces retinal ganglion cell death | [322] | ||
| β-hydroxybutyrate | Glioma | NLRP3-mediated migration of glioma cells is suppressed by β-hydroxybutyrate | [323] | |
| Alzheimer’s disease | Pathology of Alzheimer’s disease is alleviated by β-hydroxybutyrate through inhibiting NLRP3 | [324] | ||
| Gout flares | Gout flares is relieved by β-hydroxybutyrate through inhibiting NLRP3 in neutrophil | [325] | ||
| 16,673-34-0 | Cardiac dysfunction | Western diet-induced cardiac dysfunction is prevented by 16,673-34-0 | [326] | |
| Ischemia–reperfusion injury | Heart ischemia–reperfusion injury is reduced by 16,673-34-0 | [327] | ||
| Celastrol | Melanoma | Celastrol inhibits migration and invasion of melanoma cells by suppressing macrophage-derived NLRP3/IL-1β pathway | [172] | |
| NBC series | In vitro research | NBC series inhibits activation of NLRP3 without affecting Ca2+ homeostasis | [328] | |
| Apigenin | Peritonitis | Apigenin ameliorates inflammatory symptoms related to NLRP3 activation | [329] | |
| Fc11a-2 | Colitis | Fc11a-2 attenuates symptoms and secretion of pro-inflammatory cytokines in colitis by targeting NLRP3 | [330] | |
| Formononetin | Colitis | Formononetin prevents colonic cell injury by reducing NLRP3, ASC, and IL-1β protein levels | [331] | |
| Triptolide | Myocardial remodeling | Triptolide attenuates myocardial remodeling by targeting NLRP3 | [332] | |
| Andrographolide | Colitis-associated cancer | Andrographolide reduces colitis and tumor burden by inhibiting NLRP3 and triggering mitophagy | [333] | |
| Curcumin | Colitis | Curcumin ameliorates colitis symptoms by inhibiting NLRP3 in macrophages | [334] | |
| Quinazolin-4(3H)-ones | In vitro research | Quinazolin-4(3H)-ones inhibits NLRP3-mediated IL-1β release in monocyte | [335] | |
| Arglabin | Atherosclerosis | Arglabin shows anti-atherogenic effects partially through targeting NLRP3 | [336] | |
| LFG-500 | NSCLS | LFG-500 suppresses NLRP3-mediated EMT, migration, and metastasis | [178] | |
| ibrutinib | In vitro research | Ibrutinib indirectly inhibits NLRP3 inflammasomes by suppressing phosphorylated BTK that directly inhibited NLRP3 and ASC | [257] | |
| AIM2 inhibitor | Andrographolide | Radiation-induced lung inflammation | Andrographolide prevents AIM2 from entering the nucleus | [224] |
| glycyrrhizin | In vitro research | Glycyrrhizin inhibits activation of AIM2 | [256] | |
| Methylene blue | In vitro research | Methylene blue is a broad-spectrum inflammasome inhibitor against NLRP3, NLRC4, AIM2, and non-canonical inflammasomes | [261] | |
| NLRC4 inhibitor | Sulforaphane | In vitro research | Sulforaphane attenuates activation of both NLRP3 and NLRC4 | [262] |
| Methylene blue | In vitro research | Methylene blue is a broad-spectrum inflammasome inhibitor against NLRP3, NLRC4, AIM2, and non-canonical inflammasomes | [261] | |
| ASC inhibitor | CRID3 (MCC950) | In vitro research | CRID3 directly interacts with ASC causing blocked formation of ASC specks | [271] |
| Spinal cord injury | CRID3 improves histology and behavior results after spinal cord injury by inhibiting ASC-related inflammasomes | [270] | ||
| ibrutinib | In vitro research | Ibrutinib indirectly inhibits NLRP3 inflammasomes by suppressing phosphorylated BTK that directly inhibits NLRP3 and ASC | [257] | |
| Caspase-1 inhibitor | VX-765 | NSCLC | ROS/NF-κB/NLRP3/GSDMD axis-induced pyroptosis is inhibited by VX-765 | [263] |
| NSCLC | VX-765 inhibits cell migration by blocking AIM2 signal | [264] | ||
| Alzheimer’s disease | VX-765 alleviates neuropathology and cognitive impairment in mouse model of Alzheimer’s disease | [337] | ||
| VX-740 | Colitis | VX-740 mitigates IL-1β secretion in dextran sodium sulfate-induced colitis | [338] | |
| Osteoarthritis | VX-740 attenuates joint damage in mouse models of osteoarthritis | [339] | ||
| VRT-018858 | Transient ischemia | VRT-018858 shows protective effect against brain damage in transient ischemia | [340] | |
| Thalidomide | Melanoma | Thalidomide reduces tumor growth through inhibiting caspase-1 in MDSCs | [267] | |
| Ac-YVAD-CHO | Melanoma | Ac-YVAD-CHO inhibits iNOS-induced apoptosis | [268] | |
| Melanoma | Ac-YVAD-CHO inhibits phloretin-induced apoptosis | [269] | ||
| Ac-FLTD-CMK | Traumatic brain injury | Ac-FLTD-CMK shows neuroprotective effect in traumatic brain injury through inhibiting pyroptosis | [341] | |
| Ac-YVAD-CMK | Hepatocellular carcinoma | Ac-YVAD-CMK reverses caspase-1-mediated pyroptosis | [265] | |
| Breast cancer | Ac-YVAD-CMK increases proliferation and invasion, while decreasing apoptosis in cancer cells | [342] | ||
| Renal cancer | Ac-YVAD-CMK abrogates AIM2-mediated anti-tumor effect | [343] | ||
| Z-YVAD-fmk | Prostate cancer | Z-YVAD-fmk inhibits radiation-induced apoptosis by targeting caspase-1 | [266] | |
| Q-VD-OPh | Leukemia | Q-VD-OPh in combination with vitamin D show anti-leukemia effects through inducing differentiation | [344] | |
| IL-1α inhibitor | Lutikizumab | In vitro research | Lutikizumab specifically binds to IL-1α and IL-1β simultaneously | [345] |
| IL-1β inhibitor | Canakinumab | rheumatoid arthritis | Canakinumab is effective in joint inflammation models | [278] |
| Rilonacept | autoimmune disorders | High-affinity “cytokine traps” potently block cytokines in vitro and in vivo | [279, 280] | |
| Gevokizumab | Heart failure | Gevokizumab limits cardiac remodeling and coronary dysfunction | [281] | |
| Lutikizumab | In vitro research | Lutikizumab specifically binds to IL-1α and IL-1β simultaneously | [345] | |
| IL-18 inhibitor | IL-18BP | Colorectal carcinoma | IL-18BP binds to IL-18 with high-affinity limiting anti-tumor immunity | [282] |
| IL-1R inhibitor | Anakinra | Burkitt lymphoma | Anakinra abrogates cytokine release syndrome during CAR-T therapy | [289] |
| Breast cancer | Anakinra reduces tumor growth by abrogating IL-22 production | [283] | ||
| Mesothelioma | Synergistic effect is observed in combined of cisplatin and Anakinra against malignant mesothelioma | [215] | ||
| AMG 108 | Osteoarthritis | AMG 108 decreases neutrophil count | [346] | |
| GSDMD inhibitor | Necrosulfonamide | NSCLC | ROS/NF-κB/NLRP3/GSDMD axis-induced pyroptosis is inhibited by necrosulfonamide | [263] |
| Alzheimer’s disease | Necrosulfonamide inhibits β-amyloid-induced neuronal pyroptosis | [347] | ||
| LDC7559 | In vitro research | LDC7559 binds to GSDMD and inhibits NETosis | [272] | |
| Disulfiram | Breast cancer | Metabolite of disulfiram shows anticancer effect | [348] | |
| Nasopharyngeal cancer | Disulfiram/copper shows potent cytotoxic effects on cancer cells and fibroblasts | [275] | ||
| Sepsis | Disulfiram prevents NET release from neutrophils leading to reduced multiple organ dysfunction | [273] | ||
| In vitro research | Disulfiram inhibits GSDMD pore formation | [274] | ||
| Bay 11–7082 | Multiple myeloma | Bay 11–7082 induces apoptosis in multiple myeloma cells | [276, 277] | |
| In vitro research | Bay 11–7082 inhibits GSDMD pore formation | [274] | ||
| NLRP3 activator | Polyphyllin VI | NSCLC | Polyphyllin VI induces pyroptosis through activating NLRP3 | [263] |
| 17β-estradiol | Hepatocellular carcinoma | 17β-estradiol provokes pyroptosis via NLRP3 | [265, 290] | |
| BMS-986299 | Cancer | BMS-986299 shows potential anticancer effects | [3] |