PURPOSE: Aspartate β-hydroxylase (ASPH) contributes to carcinogenesis by promoting tumor cell proliferation, migration, and invasion. The enzymatic activity of ASPH can be inhibited by small molecule inhibitors that have been shown to have anti-metastatic activity in rodent models. ASPH has also been shown to inhibit the activation of natural killer (NK) cells. Therefore, this study aimed to investigate the effect of ASPH inhibition on the induction of anti-tumor immunity and to analyze the immune cells involved. METHODS: In the mouse TC-1/A9 model characterized by reversible downregulation of major histocompatibility class I (MHC-I) molecules, ASPH inhibition was combined with stimulation of innate and/or adaptive immunity, and the anti-tumor response was analyzed by evaluation of tumor growth, in vivo depletion of immune cell subpopulations, and ELISPOT assay. Characteristics of immune cells in the spleen and tumor were determined by flow cytometry and single-cell RNA sequencing (scRNA-seq). RESULTS: ASPH inhibition did not reduce tumor growth or promote the anti-tumor effect of innate immunity stimulation with the synthetic oligonucleotide ODN1826, but it significantly enhanced tumor growth reduction induced by DNA vaccination. In vivo immune cell depletion suggested that CD8+ T cells played a critical role in this immunity stimulated by combined treatment with ASPH inhibition and DNA vaccination. ASPH inhibition also significantly enhanced the specific response of CD8+ T cells induced by DNA vaccination in splenocytes, as detected by ELISPOT assay, and reduced the number of regulatory T cells in tumors. scRNA-seq confirmed the improved activation of CD8+ T cells in tumor-infiltrating cells after combined therapy with DNA vaccination and ASPH inhibition. It also showed activation of NK cells, macrophages, and dendritic cells in tumors. CONCLUSION: ASPH inhibition stimulated T-cell-mediated adaptive immunity induced by DNA vaccination. Different types of lymphoid and myeloid cells were likely involved in the activated immune response that was efficient against tumors with MHC-I downregulation, which are often resistant to T-cell-based therapies. Due to different types of activated immune cells, ASPH inhibition could improve immunotherapy for tumors with various MHC-I expression levels.

• Keywords
• ASPH, adaptive immunity, cancer immunotherapy, scRNA-seq, tumor microenvironment,
• Publication type
• Journal Article MeSH

Background: Cancer development involves alterations in key cellular pathways, with aspartate β-hydroxylase (ASPH) emerging as an important player in tumorigenesis. ASPH is upregulated in various cancer types, where it promotes cancer progression mainly by regulating the Notch1 and SRC pathways. Methods: This study explored the responses of various human cervical, pharyngeal, and breast tumor cell lines to second- and third-generation ASPH inhibitors (MO-I-1151 and MO-I-1182) using proliferation, migration, and invasion assays; western blotting; and cell cycle analysis. Results: ASPH inhibition significantly reduced cell proliferation, migration, and invasion and disrupted both the canonical and noncanonical Notch1 pathways. The noncanonical pathway was particularly mediated by AKT signaling. Cell cycle analysis revealed a marked reduction in cyclin D1 expression, further confirming the inhibitory effect of ASPH inhibitors on cell proliferation. Additional analysis revealed G0/G1 arrest and restricted progression into S phase, highlighting the regulatory impact of ASPH inhibitors on the cell cycle. Furthermore, ASPH inhibition induced distinctive alterations in nuclear morphology. The high heterogeneity in the responses of individual tumor cell lines to ASPH inhibitors, both quantitatively and qualitatively, underscores the complex network of mechanisms that are regulated by ASPH and influence the efficacy of ASPH inhibition. The effects of ASPH inhibitors on Notch1 pathway activity, cyclin D1 expression, and nuclear morphology contribute to the understanding of the multifaceted effects of these inhibitors on cancer cell behavior. Conclusion: This study not only suggests that ASPH inhibitors are effective against tumor cell progression, in part through the induction of cell cycle arrest, but also highlights the diverse and heterogeneous effects of these inhibitors on the behavior of tumor cells of different origins.

• Keywords
• AKT signaling, ASPH inhibitors, Notch pathway, cell cycle, heterogeneity, tumorigenesis,
• Publication type
• Journal Article MeSH

Background: Overexpression of aspartate β-hydroxylase (ASPH) in human tumors contributes to their progression by stimulating cell proliferation, migration, and invasion. Several signaling pathways affected by ASPH have been identified, but the high number of potential targets of ASPH hydroxylation suggests that additional mechanisms may be involved. This study was performed to reveal new targets of ASPH signaling. Methods: The effect of ASPH on the oncogenicity of three mouse tumor cell lines was tested using proliferation assays, transwell assays, and spheroid invasion assays after inhibition of ASPH with the small molecule inhibitor MO-I-1151. ASPH was also deactivated with the CRISPR/Cas9 system. A transcriptomic analysis was then performed with bulk RNA sequencing and differential gene expression was evaluated. Expression data were verified by quantitative PCR and immunoblotting. Results: Inhibition or abrogation of ASPH reduced proliferation of the cell lines and their migration and invasiveness. Among the genes with differential expression in more than one cell line, two members of the lymphocyte antigen 6 (Ly6) family, Ly6a and Ly6c1, were found. Their downregulation was confirmed at the protein level by immunoblotting, which also showed their reduction after ASPH inhibition in other mouse cell lines. Reduced production of the Ly6D and Ly6K proteins was shown after ASPH inhibition in human tumor cell lines. Conclusions: Since increased expression of Ly6 genes is associated with the development and progression of both mouse and human tumors, these results suggest a novel mechanism of ASPH oncogenicity and support the utility of ASPH as a target for cancer therapy.

• Keywords
• ASPH inhibitor, Ly6 family, RNA sequencing, Tumorigenesis,
• Publication type
• Journal Article MeSH

As metastasis is a major cause of death in cancer patients, new anti-metastatic strategies are needed to improve cancer therapy outcomes. Numerous pathways have been shown to contribute to migration and invasion of malignant tumors. Aspartate β-hydroxylase (ASPH) is a key player in the malignant transformation of solid tumors by enhancing cell proliferation, migration, and invasion. ASPH also promotes tumor growth by stimulation of angiogenesis and immunosuppression. These effects are mainly achieved via the activation of Notch and SRC signaling pathways. ASPH expression is upregulated by growth factors and hypoxia in different human tumors and its inactivation may have broad clinical impact. Therefore, small molecule inhibitors of ASPH enzymatic activity have been developed and their anti-metastatic effect confirmed in preclinical mouse models. ASPH can also be targeted by monoclonal antibodies and has also been used as a tumor-associated antigen to induce both cluster of differentiation (CD) 8+ and CD4+ T cells in mice. The PAN-301-1 vaccine against ASPH has already been tested in a phase 1 clinical trial in patients with prostate cancer. In summary, ASPH is a promising target for anti-tumor and anti-metastatic therapy based on inactivation of catalytic activity and/or immunotherapy.

• Keywords
• ASPH, Immunotherapy, Metastasis, Small molecule inhibitor,
• MeSH
• Molecular Targeted Therapy * MeSH
• Humans MeSH
• Membrane Proteins antagonists & inhibitors   MeSH
• Lung Neoplasms drug therapy   enzymology   pathology   MeSH
• Mixed Function Oxygenases antagonists & inhibitors   MeSH
• Prognosis MeSH
• Calcium-Binding Proteins antagonists & inhibitors   MeSH
• Antineoplastic Agents therapeutic use   MeSH
• Muscle Proteins antagonists & inhibitors   MeSH
• Check Tag
• Humans MeSH
• Publication type
• Journal Article MeSH
• Review MeSH
• Names of Substances
• ASPH protein, human MeSH Browser
• Membrane Proteins MeSH
• Mixed Function Oxygenases MeSH
• Calcium-Binding Proteins MeSH
• Antineoplastic Agents MeSH
• Muscle Proteins MeSH

The 46th EuroCongress on Drug Synthesis and Analysis (ECDSA-2017) was arranged within the celebration of the 65th Anniversary of the Faculty of Pharmacy at Comenius University in Bratislava, Slovakia from 5-8 September 2017 to get together specialists in medicinal chemistry, organic synthesis, pharmaceutical analysis, screening of bioactive compounds, pharmacology and drug formulations; promote the exchange of scientific results, methods and ideas; and encourage cooperation between researchers from all over the world. The topic of the conference, "Drug Synthesis and Analysis," meant that the symposium welcomed all pharmacists and/or researchers (chemists, analysts, biologists) and students interested in scientific work dealing with investigations of biologically active compounds as potential drugs. The authors of this manuscript were plenary speakers and other participants of the symposium and members of their research teams. The following summary highlights the major points/topics of the meeting.

• Keywords
• chemical biology, drug design and development, medicinal chemistry, natural compounds, new small entities, organic synthesis, pharmaceutical analysis, therapeutic proteins,
• MeSH
• Pharmacists MeSH
• Chemistry, Pharmaceutical MeSH
• Quantitative Structure-Activity Relationship MeSH
• Humans MeSH
• Intersectoral Collaboration MeSH
• Drug Compounding * MeSH
• Research Personnel MeSH
• Check Tag
• Humans MeSH
• Publication type
• Congress MeSH
• Geographicals
• Slovakia MeSH

The Eighth Central European Conference "Chemistry towards Biology" was held in Brno, Czech Republic, on August 28-September 1, 2016 to bring together experts in biology, chemistry and design of bioactive compounds; promote the exchange of scientific results, methods and ideas; and encourage cooperation between researchers from all over the world. The topics of the conference covered "Chemistry towards Biology", meaning that the event welcomed chemists working on biology-related problems, biologists using chemical methods, and students and other researchers of the respective areas that fall within the common scope of chemistry and biology. The authors of this manuscript are plenary speakers and other participants of the symposium and members of their research teams. The following summary highlights the major points/topics of the meeting.

• Keywords
• ADME, drug delivery systems, biological chemistry, biomaterials, chemical biology, drug design, nanoparticles, natural compounds, proteins and nucleic acids, synthesis, targeting,
• MeSH
• Epigenesis, Genetic MeSH
• Chemistry, Pharmaceutical methods   MeSH
• Drug Delivery Systems MeSH
• Proteins chemistry   MeSH
• Drug Design MeSH
• Systems Biology MeSH
• Structure-Activity Relationship MeSH
• Publication type
• Congress MeSH
• Names of Substances
• Proteins MeSH