scholarly journals A Priori Activation of Apoptosis Pathways of Tumor (AAAPT) Technology: Development of Targeted Apoptosis Initiators for Cancer Treatment

2019 ◽  
Author(s):  
Raghu Pandurangi ◽  
Marco Tomasetti ◽  
Thillai Verapazham Sekar ◽  
Ramasamy Paulmurugan ◽  
Cynthia Ma ◽  
...  
Keyword(s):  
Cell Death ◽  
Cancer Cells ◽  
Technology Development ◽  
Tumor Regression ◽  
A Priori ◽  
Specific Cell ◽  
Cell Death Pathways ◽  
Survival Pathways ◽  
Apoptosis Pathways

AbstractCancer cells develop tactics to circumvent the interventions by desensitizing themselves to interventions. The principle routes of desensitization include a) activation of survival pathways (e.g. NF-kB, PARP) and b) downregulation of cell death pathways (e.g. CD95/CD95L). As a result, it requires high therapeutic dose to achieve tumor regression which, in turn damages normal cells through the collateral damaging effects. Methods are needed to sensitize the low and non-responsive resistant tumor cells including cancer stem cells (CSCs) in order to evoke a better response from the current treatments. Current treatments including chemotherapy can induce cell death only in bulk cancer cells sparing CSCs and cancer resistant cells (CRCs) which are shown to be responsible for high recurrence of disease and low patient survival. Here, we report several novel tumor targeted sensitizers derived from the natural Vitamin E analogue (AMP-001-003). The drug design is based on a novel concept “A priori activation of apoptosis pathways of tumor technology (AAAPT) which is designed to activate specific cell death pathways and inhibit survival pathways simultaneously. Our results indicate that AMP-001-003 sensitize various types of cancer cells including MDA-MB-231 (triple negative breast cancer), PC3 (prostate cancer) and A543 (ling cancer) cells resulting in reducing the IC-50 of doxorubicin in vitro. At higher dose, AMP-001 acts as an anti-tumor agent on its own. The synergy between AMP-001 and doxorubicin could pave a new pathway to use AMP-001 as a neoadjuvant to chemotherapy to achieve a better efficacy and reduced off-target toxicity by the current treatments.Summary StatementA Priori Activation of Apoptosis Pathways of Tumor often referred to as “AAAPT” is a novel targeted tumor sensitizing technology which synergizes with chemotherapy to enhance the treatment efficacy.

scholarly journals A Priori Activation of Apoptosis Pathways of Tumor (AAAPT) Technology: Development of Targeted Apoptosis Initiators for Cancer Treatment

2019 ◽  
Author(s):  
Raghu Pandurangi ◽  
Marco Tomasetti ◽  
Thillai Verapazham Sekar ◽  
Ramasamy Paulmurugan ◽  
Cynthia Ma ◽  
...  
Keyword(s):  
Cell Death ◽  
Cancer Cells ◽  
Technology Development ◽  
Tumor Regression ◽  
A Priori ◽  
Specific Cell ◽  
Cell Death Pathways ◽  
Survival Pathways ◽  
Apoptosis Pathways

AbstractCancer cells develop tactics to circumvent the interventions by desensitizing themselves to interventions. The principle routes of desensitization include a) activation of survival pathways (e.g. NF-kB, PARP) and b) downregulation of cell death pathways (e.g. CD95/CD95L). As a result, it requires high therapeutic dose to achieve tumor regression which, in turn damages normal cells through the collateral damaging effects. Methods are needed to sensitize the low and non-responsive resistant tumor cells including cancer stem cells (CSCs) in order to evoke a better response from the current treatments. Current treatments including chemotherapy can induce cell death only in bulk cancer cells sparing CSCs and cancer resistant cells (CRCs) which are shown to be responsible for high recurrence of disease and low patient survival. Here, we report several novel tumor targeted sensitizers derived from the natural Vitamin E analogue (AMP-001-003). The drug design is based on a novel concept “A priori activation of apoptosis pathways of tumor technology (AAAPT) which is designed to activate specific cell death pathways and inhibit survival pathways simultaneously. Our results indicate that AMP-001-003 sensitize various types of cancer cells including MDA-MB-231 (triple negative breast cancer), PC3 (prostate cancer) and A543 (ling cancer) cells resulting in reducing the IC-50 of doxorubicin in vitro. At higher dose, AMP-001 acts as an anti-tumor agent on its own. The synergy between AMP-001 and doxorubicin could pave a new pathway to use AMP-001 as a neoadjuvant to chemotherapy to achieve a better efficacy and reduced off-target toxicity by the current treatments.Summary StatementA Priori Activation of Apoptosis Pathways of Tumor often referred to as “AAAPT” is a novel targeted tumor sensitizing technology which synergizes with chemotherapy to enhance the treatment efficacy.

scholarly journals A Priori Activation of Apoptosis Pathways of Tumor (AAAPT) technology: Development of targeted apoptosis initiators for cancer treatment

PLoS ONE ◽  
2021 ◽  
Vol 16 (2) ◽  
pp. e0225869
Author(s):  
Raghu S. Pandurangi ◽  
Marco Tomasetti ◽  
Sekar T. Verapazham ◽  
Ramasamy Paulmurugan ◽  
Cynthia Ma ◽  
...  
Keyword(s):  
Cell Death ◽  
Cancer Cells ◽  
Tumor Regression ◽  
A Priori ◽  
Specific Cell ◽  
Normal Cells ◽  
Cell Death Pathways ◽  
Survival Pathways ◽  
Apoptosis Pathways

Cancer cells develop tactics to circumvent the interventions by desensitizing themselves to interventions. Amongst many, the principle routes of desensitization include a) activation of survival pathways (e.g. NF-kB, PARP) and b) downregulation of cell death pathways (e.g. CD95/CD95L). As a result, it requires high therapeutic dose to achieve tumor regression which, in turn damages normal cells through the collateral effects. Methods are needed to sensitize the low and non-responsive resistant tumor cells including cancer stem cells (CSCs) in order to evoke a better response from the current treatments. Current treatments including chemotherapy can induce cell death only in bulk cancer cells sparing CSCs and cancer resistant cells (CRCs) which are shown to be responsible for high recurrence of disease and low patient survival. Here, we report several novel tumor targeted sensitizers derived from the natural Vitamin E analogue (AMP-001-003). The drug design is based on a novel concept “A priori activation of apoptosis pathways of tumor technology (AAAPT) which is designed to activate specific cell death pathways and inhibit survival pathways simultaneously and selectively in cancer cells sparing normal cells. Our results indicate that AMP-001-003 sensitize various types of cancer cells including MDA-MB-231 (triple negative breast cancer), PC3 (prostate cancer) and A543 (lung cancer) cells resulting in reducing the IC-50 of doxorubicin in vitro when used as a combination. At higher doses, AMP-001 acts as an anti-tumor agent on its own. The synergy between AMP-001 and doxorubicin could pave a new pathway to use AAAPT leading molecules as neoadjuvant to chemotherapy to achieve better efficacy and reduced off-target toxicity compared to the current treatments.

scholarly journals A Priori Activation of Apoptosis Pathways of Tumor (AAAPT) Technology: Sensitization of Tumor Cells Using Targeted and Cleavable Apoptosis Initiators in Gastric Cancer.

2018 ◽  
Author(s):  
Raghu S Pandurangi ◽  
Han Wu ◽  
Yan Li ◽  
Keyword(s):  
Gastric Cancer ◽  
Cell Death ◽  
Cancer Cells ◽  
Tumor Cells ◽  
A Priori ◽  
High Dose ◽  
Induce Cell Death ◽  
Cell Death Pathways ◽  
Survival Pathways ◽  
Apoptosis Pathways

Cancer cells develop tactics to circumvent the interventions by desensitizing themselves to interventions. The principle route of desensitization includes activation of survival pathways (e.g. NF-kB, PARP) and downregulation of cell death pathways (e.g. CD95, ASK1). As a result, it requires high dose of therapy to induce cell death which, in turn damages normal cells through the collateral effects. Methods are needed to sensitize the low and non-responsive resistant tumor cells in order to evoke a better response from the current treatments. Current treatments including chemotherapy can induce cell death only in bulk cancer cells sparing low-responsive and resistant tumor cells. Here we report a novel tumor sensitizer derived from the natural Vitamin E analogue (AMP-001). The drug design is based on a novel “A priori activation of apoptosis pathways of tumor technology (AAAPT) which is designed to activate cell death pathways and inhibit survival pathways simultaneously. It involves an inbuilt targeting vector which targets tumor specific Cathepsin B, overexpressed by many cancers including gastric cancer. Our results indicate that AMP-001 sensitizes gastric cancer cells which resulted in expanding the therapeutic index of front-line chemotherapy doxorubicin both in vitro and in vivo nude mouse model. The synergy between AMP-001 and doxorubicin could pave a new pathway to use AMP-001 as a neoadjuvant to chemotherapy to achieve a better efficacy and reduced off-target toxicity.

scholarly journals In vitro radiotherapy and chemotherapy alter migration of brain cancer cells before cell death

2021 ◽  
Vol 27 ◽  
pp. 101071
Author(s):  
Michael Merrick ◽  
Michael J. Mimlitz ◽  
Catherine Weeder ◽  
Haris Akhter ◽  
Allie Bray ◽  
...  
Keyword(s):  
Cell Death ◽  
Cancer Cells ◽  
Brain Cancer

scholarly journals Tumor cytotoxicity and immunogenicity of a novel V-jet neon plasma source compared to the kINPen

2021 ◽  
Vol 11 (1) ◽  
Author(s):  
Lea Miebach ◽  
Eric Freund ◽  
Stefan Horn ◽  
Felix Niessner ◽  
Sanjeev Kumar Sagwal ◽  
...  
Keyword(s):  
Cell Death ◽  
Dendritic Cells ◽  
Cancer Cells ◽  
Treatment Time ◽  
Plasma Source ◽  
In Vivo Model ◽  
Antitumor Effects ◽  
Plasma Device

AbstractRecent research indicated the potential of cold physical plasma in cancer therapy. The plethora of plasma-derived reactive oxygen and nitrogen species (ROS/RNS) mediate diverse antitumor effects after eliciting oxidative stress in cancer cells. We aimed at exploiting this principle using a newly designed dual-jet neon plasma source (Vjet) to treat colorectal cancer cells. A treatment time-dependent ROS/RNS generation induced oxidation, growth retardation, and cell death within 3D tumor spheroids were found. In TUM-CAM, a semi in vivo model, the Vjet markedly reduced vascularized tumors' growth, but an increase of tumor cell immunogenicity or uptake by dendritic cells was not observed. By comparison, the argon-driven single jet kINPen, known to mediate anticancer effects in vitro, in vivo, and in patients, generated less ROS/RNS and terminal cell death in spheroids. In the TUM-CAM model, however, the kINPen was equivalently effective and induced a stronger expression of immunogenic cancer cell death (ICD) markers, leading to increased phagocytosis of kINPen but not Vjet plasma-treated tumor cells by dendritic cells. Moreover, the Vjet was characterized according to the requirements of the DIN-SPEC 91315. Our results highlight the plasma device-specific action on cancer cells for evaluating optimal discharges for plasma cancer treatment.

Targeting multiple cell death pathways extends the shelf life and preserves the function of human and mouse neutrophils for transfusion

2021 ◽  
Vol 13 (604) ◽  
pp. eabb1069
Author(s):  
Yuping Fan ◽  
Yan Teng ◽  
Fabien Loison ◽  
Aiming Pang ◽  
Anongnard Kasorn ◽  
...  
Keyword(s):  
Cell Death ◽  
Shelf Life ◽  
Ex Vivo ◽  
Combined Treatment ◽  
Bacterial Killing ◽  
Immunodeficient Mice ◽  
Cell Death Pathways ◽  
Multiple Cell ◽  
Human And Mouse

Clinical outcomes from granulocyte transfusion (GTX) are disadvantaged by the short shelf life and compromised function of donor neutrophils. Spontaneous neutrophil death is heterogeneous and mediated by multiple pathways. Leveraging mechanistic knowledge and pharmacological screening, we identified a combined treatment, caspases–lysosomal membrane permeabilization–oxidant–necroptosis inhibition plus granulocyte colony-stimulating factor (CLON-G), which altered neutrophil fate by simultaneously targeting multiple cell death pathways. CLON-G prolonged human and mouse neutrophil half-life in vitro from less than 1 day to greater than 5 days. CLON-G–treated aged neutrophils had equivalent morphology and function to fresh neutrophils, with no impairment to critical effector functions including phagocytosis, bacterial killing, chemotaxis, and reactive oxygen species production. Transfusion with stored CLON-G–treated 3-day-old neutrophils enhanced host defenses, alleviated infection-induced tissue damage, and prolonged survival as effectively as transfusion with fresh neutrophils in a clinically relevant murine GTX model of neutropenia-related bacterial pneumonia and systemic candidiasis. Last, CLON-G treatment prolonged the shelf life and preserved the function of apheresis-collected human GTX products both ex vivo and in vivo in immunodeficient mice. Thus, CLON-G treatment represents an effective and applicable clinical procedure for the storage and application of neutrophils in transfusion medicine, providing a therapeutic strategy for improving GTX efficacy.

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