Proposing that a blend of the chemical diversity of small synthetic molecules with the immunological characteristics of the antibody molecule will lead to therapeutic agents with superior properties, we here present a device that equips small synthetic molecules with both effector function and long serum half-life of a generic antibody molecule. As a prototype, we developed a targeting device that is based on the formation of a covalent bond of defined stoichiometry between a 1,3-diketone derivative of an integrin ␣v3 and ␣v5 targeting Arg-Gly-Asp peptidomimetic and the reactive lysine of aldolase antibody 38C2. The resulting complex was shown to (i) spontaneously assemble in vitro and in vivo, (ii) selectively retarget antibody 38C2 to the surface of cells expressing integrins ␣v3 and ␣v5, (iii) dramatically increase the circulatory half-life of the Arg-Gly-Asp peptidomimetic, and (iv) effectively reduce tumor growth in animal models of human Kaposi's sarcoma and colon cancer. This immunotherapeutic has the potential to target a variety of human cancers, acting on both the vasculature that supports tumor growth as well as the tumor cells themselves. Further, by use of a generic antibody molecule that forms a covalent bond with a 1,3-diketone functionality, essentially any compound can be turned into an immunotherapeutic agent thereby not only increasing the diversity space that can be accessed but also multiplying the therapeutic effect.
Chemie CommunicationsHomo-and heterotrimeric prodrug systems, which are activated through a single catalytic reaction by a specific enzyme, have been prepared to release anticancer drugs. For more information about the knock-on (domino) effect of the bioactivation of the prodrug platform, see the Communication by D. Shabat et al. on the following pages. 716
Introduction There are few published empirical data on the effects of COVID‐19 on mental health, and until now, there is no large international study. Material and methods During the COVID-19 pandemic, an online questionnaire gathered data from 55,589 participants from 40 countries (64.85% females aged 35.80 ± 13.61; 34.05% males aged 34.90±13.29 and 1.10% other aged 31.64±13.15). Distress and probable depression were identified with the use of a previously developed cut-off and algorithm respectively. Statistical analysis Descriptive statistics were calculated. Chi-square tests, multiple forward stepwise linear regression analyses and Factorial Analysis of Variance (ANOVA) tested relations among variables. Results Probable depression was detected in 17.80% and distress in 16.71%. A significant percentage reported a deterioration in mental state, family dynamics and everyday lifestyle. Persons with a history of mental disorders had higher rates of current depression (31.82% vs. 13.07%). At least half of participants were accepting (at least to a moderate degree) a non-bizarre conspiracy. The highest Relative Risk (RR) to develop depression was associated with history of Bipolar disorder and self-harm/attempts (RR = 5.88). Suicidality was not increased in persons without a history of any mental disorder. Based on these results a model was developed. Conclusions The final model revealed multiple vulnerabilities and an interplay leading from simple anxiety to probable depression and suicidality through distress. This could be of practical utility since many of these factors are modifiable. Future research and interventions should specifically focus on them.
Molecules that define logic: A molecular “OR” logic gate trigger has been demonstrated by masking a functional group in a doxorubicin prodrug with a linker that contains two cleavable substrates (input). The prodrug molecule was activated by two different enzymes to release the parent drug (see scheme; input red; output (drug) blue).
Artificial transcription factors can be engineered to interact with specific DNA sequences to modulate endogenous gene expression within cells. A significant hurdle to implementation of this approach is the selection of the appropriate DNA sequence for targeting. We reasoned that a good target site should be located in chromatin, where it is accessible to DNA-binding proteins, and it should be in the close vicinity of known transcriptional regulators of the gene. Here we have explored the efficacy of these criteria to guide our selection of potential regulators of ␥-globin expression. Several zinc finger-based transcriptional activators were designed to target the sites proximal to the ؊117-position of the ␥-globin promoter. This region is proximal to the binding sites of known and potential natural transcription factors. Design and study of three transcription factors identified the potent transcriptional activator, gg1-VP64-HA. This transcription factor was able to interact directly with the ␥-globin promoter and upregulate expression of reporter gene constructs as well as the endogenous gene in a selective manner. Transfection of a gg1-VP64-HA expression vector or retroviral delivery of this transcription factor into the erythroleukemia cell line K562 resulted in an increase of fetal hemoglobin. The ␥-globin content of cells expressing gg1-vp64-HA showed up to 16-fold higher levels of fetal hemoglobin than the native K562 cell line. These transcriptional activators constitute a novel class of regulators of the globin locus that may be suitable for treatment of diseases arising from mutations in this locus such as sickle cell disease and thalassemic diseases.
The endothelial cell receptor-tyrosine kinases, VEGF receptor 2 (VEGF-R2) and Tie-2, and their ligands, vascular endothelial growth factor (VEGF) and angiopoietins 1 and 2, respectively, play key roles in tumor angiogenesis. Several studies suggest that the VEGF receptor pathway and the Tie-2 pathway are independent and essential mediators of angiogenesis, leading to the hypothesis that simultaneous interference with both pathways should result in additive effects on tumor growth. In this study, a human melanoma xenograft model (M21) was used to analyze the effects of simultaneous intradiabody depletion of vascular endothelial growth receptor-R2 and Tie-2 on tumor angiogenesis and tumor xenograft growth. The intradiabodies were expressed from recombinant adenovirus delivered through subtumoral injection. Blockade of both VEGF-R2 and Tie-2 pathways simultaneously or the VEGF receptor pathway alone resulted in a significant inhibition of tumor growth and tumor angiogenesis (92.2% and 74.4%, respectively). In addition, immunohistochemical staining of intradiabody-treated tumors demonstrated a decreased number of tumor-associated blood vessels versus control treatment. Previous studies with intrabodies had demonstrated that the Tie-2 receptor pathway was essential for tumor growth. The simultaneous blockade of the VEGF and Tie-2 pathways resulted in effective inhibition of tumor growth and demonstrated the potential of simultaneous targeting of multiple pathways as a therapeutic strategy
Monoclonal antibody (mAb) 38C2 belongs to a group of catalytic antibodies that were generated by reactive immunization and contains a reactive lysine. 38C2 catalyzes aldol and retro-aldol reactions, using an enamine mechanism, and mechanistically mimics natural aldolase enzymes. In addition, mAb 38C2 can be redirected to target integrins a v b 3 and a v b 5 through the formation of a covalent bond between a b-diketone derivative of an arginine-glycine-aspartic acid (RGD) peptidomimetic and the reactive lysine residue in the antibody combining site to provide the chemically programmed mAb cp38C2. In this study, we investigated the potential of enhancing the activity of receptor-binding small molecule drug (SCS-873) through antibody conjugation. Using a M21 human melanoma xenograft model in nude mice, cp38C2 inhibited the growth of the tumor by~81%. The chemically programmed antibody was shown to be highly active at a low concentration while SCS-873 alone was ineffective even at dosages~1,000-fold higher than those used for the chemically programmed antibody. In vitro programming of the catalytic antibody was shown to be as effective as in vivo programming. In an experimental metastasis assay, treatment with mAb cp38C2 significantly prolonged overall survival of tumor-bearing severe combined immuno-deficient (SCID) mice when compared to treatment with unprogrammed mAb 38C2, SCS-873 alone or the integrin-specific monoclonal antibody LM609. In vitro, cp38C2 inhibited human and mouse endothelial and human melanoma cell adhesion, migration and invasion. Additionally, cp38C2 inhibited human and mouse endothelial cell proliferation and was active in complement-dependent cytotoxicity assays. These studies establish the potential of chemically programmed monoclonal antibodies as a novel and effective class of immunotherapeutics that combine the merits of traditional small molecule drug design with immunotherapy. ' 2006 Wiley-Liss, Inc.Key words: melanoma; angiogenesis; integrins; antibodies; tumor modelsThe discovery that tumor growth and metastasis are codependent on the formation of neovascularization 1 revealed many potential protein targets for cancer treatment. [2][3][4] The angiogenic process depends on proliferation of vascular endothelial cells, migration of tumor cells to the vascular endothelium followed by cell adhesion, and finally invasion of the endothelium. 5 A family of highly conserved adhesion molecules, known as integrins, is central to the regulation of these processes. Integrins are heterodimeric transmembrane receptor complexes composed of noncovalently associated a and b chains, and recognize the arginine-glycine-aspartic acid (RGD) sequence present in their extracellular matrix (ECM) ligands. 6 At present, 18 a and 8 b subunits are known; these form 24 different ab heterodimers with different specificity for various ECM cell-adhesive proteins. 7 Ligands for various integrins include fibronectin, collagen, laminin, von Willebrand factor, osteopontin, thrombospondin and vitronectin, all components of...
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