Functional Characterization of Colon-Cancer-Associated Variants in ADAM17 Affecting the Catalytic Domain

Semi-synthetic flavonoid derivatives from Boesenbergiarotunda induce extrinsic apoptosis pathway via Caspase-3 and Caspase-8 in HCT116 Colon Cancer cell lines

Colorectal cancer ranks as the second most common cancer and the leading cause of cancer-related deaths globally. Phytochemicals like flavonoids from Boesenbergia rotunda showed potential anti-cancer activities. Chemical structures of the parental compounds of flavonoids were modified by conjugating with an acryloyl group to form semi-synthetic flavonoid derivatives to increasing in anti-colon cancer activities. 7-Acryloyloxypinocembrin (5) showed potential antiproliferative activities of IC50 value of 1.87 ± 0.17 μM in HCT116. In addition, compound 5 showed low cytotoxicity in Vero cells with an IC50 value of 2.84 ± 0.13 μM which is two-fold less cytotoxic than osimertinib. Biological mechanisms studies indicated that compound 5, HCT116 cells demonstrated a two-fold increase in apoptotic cell death. Subsequently, compound 5 upregulated caspase-8 and LC3, triggering the upregulation of caspase-3 and leading to the activation of both the extrinsic apoptosis pathway and the autophagy pathway. Network pharmacology analysis highlighted TNF-α receptor is a key gene associated with the extrinsic apoptosis pathway in HCT116 cells treated with compound 5. Molecular dynamics simulation confirmed the strong interaction between compound 5 and TACE, a crucial element in the EGFR and IL-6 signaling pathway's reduction which may lead to a decline in the survival rate of colon cancer. These findings indicate compound 5 as a promising anti-colon cancer drug candidate.

The developmental and inflammatory disease target protein ADAM17 is vulnerable to off-target interaction by the drug eltrombopag: Insights from molecular modeling

The loss of proteolytic activity of ADAM17 causes birth defects and embryonic lethality. Conversely, inhibiting ADAM17 activity represents a potential strategy for treating inflammatory and autoimmune diseases. ADAM17 has an active site cleft with a divalent Zn ion and hydrophobic S1'/S3' subsites interconnected to form an L shaped cavity. However, it is currently unknown whether the active site of ADAM17 is susceptible to off-target inhibition by the small molecule drug eltrombopag, which contains metal-binding moieties and is classified as pregnancy category C by the FDA. The in-depth molecular modeling analysis in this study revealed that the unique structural features of L-shaped S1'/S3', crucial for determining ADAM17 specificity, along with spatial constraints imposed by active site amino acid residues, create an ideal binding environment for eltrombopag. Interestingly, the structural peculiarity of L-shaped S1'/S3' cavity enabled the carboxylate group rather than the traditionally recognized metal binding domain of eltrombopag to chelate catalytic Zn of ADAM17. Further, eltrombopag's biphenyl and xylene groups embed in the S1'/S3' subsites and pyrazole and hydrazine linker occupy the interconnecting tunnel, forming a stable eltrombopag-ADAM17 complex. These novel findings from molecular modeling suggest that ADAM17 is an off-target of eltrombopag, a drug used to increase platelet production in thrombocytopenia. They stimulate further in vitro and in vivo studies to test the repurposing potential of eltrombopag as an ADAM17 inhibitor to prevent tissue destruction in autoimmune diseases in adults and whether the use of eltrombopag during pregnancy could potentially lead to developmental toxicity due to ADAM17 inhibition.

Antiviral Potential of Small Molecules Cordycepin, Thymoquinone, and N6, N6-Dimethyladenosine Targeting SARS-CoV-2 Entry Protein ADAM17

COVID-19 is an acute respiratory disease caused by SARS-CoV-2 that has spawned a worldwide pandemic. ADAM17 is a sheddase associated with the modulation of the receptor ACE2 of SARS-CoV-2. Studies have revealed that malignant phenotypes of several cancer types are closely relevant to highly expressed ADAM17. However, ADAM17 regulation in SARS-CoV-2 invasion and its role on small molecules are unclear. Here, we evaluated the ADAM17 inhibitory effects of cordycepin (CD), thymoquinone (TQ), and N6, N6-dimethyladenosine (m⁶₂A), on cancer cells and predicted the anti-COVID-19 potential of the three compounds and their underlying signaling pathways by network pharmacology. It was found that CD, TQ, and m⁶₂A repressed the ADAM17 expression upon different cancer cells remarkably. Moreover, CD inhibited GFP-positive syncytia formation significantly, suggesting its potential against SARS-CoV-2. Pharmacological analysis by constructing CD-, TQ-, and m⁶₂A-based drug-target COVID-19 networks further indicated that ADAM17 is a potential target for anti-COVID-19 therapy with these compounds, and the mechanism might be relevant to viral infection and transmembrane receptors-mediated signal transduction. These findings imply that ADAM17 is of potentially medical significance for cancer patients infected with SARS-CoV-2, which provides potential new targets and insights for developing innovative drugs against COVID-19.

Nectins and Nectin-like Molecules in Colorectal Cancer: Role in Diagnostics, Prognostic Values, and Emerging Treatment Options: A Literature Review

In 2020, colorectal cancer was the third most common type of cancer worldwide with a clearly visible increase in the number of cases each year. With relatively high mortality rates and an uncertain prognosis, colorectal cancer is a serious health problem. There is an urgent need to investigate its specific mechanism of carcinogenesis and progression in order to develop new strategies of action against this cancer. Nectins and Nectin-like molecules are cell adhesion molecules that take part in a plethora of essential processes in healthy tissues as well as mediating substantial actions for tumor initiation and evolution. Our understanding of their role and a viable application of this in anti-cancer therapy has rapidly improved in recent years. This review summarizes the current data on the role nectins and Nectin-like molecules play in colorectal cancer.

Immunomodulatory role of metalloproteinase ADAM17 in tumor development

ADAM17 is a member of the a disintegrin and metalloproteinase (ADAM) family of transmembrane proteases involved in the shedding of some cell membrane proteins and regulating various signaling pathways. More than 90 substrates are regulated by ADAM17, some of which are closely relevant to tumor formation and development. Besides, ADAM17 is also responsible for immune regulation and its substrate-mediated signal transduction. Recently, ADAM17 has been considered as a major target for the treatment of tumors and yet its immunomodulatory roles and mechanisms remain unclear. In this paper, we summarized the recent understanding of structure and several regulatory roles of ADAM17. Importantly, we highlighted the immunomodulatory roles of ADAM17 in tumor development, as well as small molecule inhibitors and monoclonal antibodies targeting ADAM17.

The Correlation Between Immune Invasion and SARS-COV-2 Entry Protein ADAM17 in Cancer Patients by Bioinformatic Analysis

SARS-Cov-2 caused the COVID-19 pandemic worldwide. ADAM17 functions as a disintegrin and transmembrane metalloproteinase domain protein involved in the regulation of SARS-CoV-2 receptor ACE2. However, its impact on cancer patients infected with COVID-19 and its correlation with immune cell infiltration is unclear. This study compared ADAM17 expression between normal and tumor tissues based on GEPIA. The correlations between ADAM17 expression and immune cell infiltration and immunomodulators were investigated. Besides, treated drugs for targeting ADAM17 were searched in the TISDB database. We found that ADAM17 was highly conserved in many species and was mainly expressed in lung, brain, female tissues, bone marrow and lymphoid tissues. It was also highly expressed in respiratory epithelial cells of rhinitis and bronchus. ADAM17 expression in tumors was higher than that in several paired normal tissues and was negatively correlated with the prognosis of patients with malignant tumors. Interestingly, ADAM17 expression significantly correlated with immunomodulators and immune cell infiltration in normal and tumor tissues. Moreover, eight small molecules targeting ADAM17 only demonstrate therapeutic significance. These findings imply important implications for ADAM17 in cancer patients infected with COVID-19 and provide new clues for development strategy of anti-COVID-19.