MACROMOLECULES C248concave surface.The 2-5A molecule is accommodated in the concavity and interacts with ankyrin repeats 2 to 4. Two structurally equivalent 2-5A binding motifs are found at repeats 2 and 4. The structural basis for 2-5A recognition by ANK is essential for designing stable 2-5As with a high likelihood of activating RNase L.
Abstract The goal of the study was to determine the metabolic and morphological changes, via high Content Imaging, in 3D models of osteosarcoma cancer cells using human derived hydrogels with different protein composition, Obagel and Obagel ECM. Furthermore, we evaluated the relevance of the adipose tissue microenvironment in Adipose Derived Stem Cells (ADSC) linage and Tumoroids development. Methods: Adipose derived Stem cells were cultured in a modified 3D human and fat and bone linage differentiation as studied via histology and Immunofluorescence. Osteosarcoma spheroids were cultured in Obatala Sciences’ human-derived hydrogels ObaGel and ObaGelECM and control media. Organoid structure and phenotypic changes were analyzed via live cell imaging on the Incucyte S3 and Nikon high content imaging device. Then, adipocyte- cancer cell crosstalk was evaluated using pooled adipocytes co-cultured with KHOS spheroids. Adipose derived Stem cells were cultured in a modified 3D human derived hydrogel dictates that promotes the differentiation potential toward fat and adipose tissue simultaneously in microenvironments within the organoid. Furthermore, the results demonstrated that ObaGel and ObaGel-ECM 3D cultures can support the growth and proliferation of KHOS tumor spheres during an extended culture period. Metabolic changes and phenotypic changes associated to ObaGel and ObaGel-ECM differentially facilitated tumoroids growth and migratory behavior. Conclusions: Human derived hydrogels are developed to support 3D culture of Bone and Osteosarcoma cells to recapitulate the phenotypic changes associated with their metastatic potential. The use of human derived 3D culture systems can accelerate the understanding of the role of the microenvironment in bone development and the pathogenesis and progression of Cancers like Osteosarcoma as well as screening for drug development. Citation Format: Cecilia G. Sanchez, Arman Raz, Haley Lassiter, Trivia Frazier. Human-derived hydrogels for 3D models of bone and osteosarcoma organoids and adipose tissue interactions [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 4226.
Abstract The expression of oncogenes in well‐characterized 616 melanoma and UV‐2237 fibrosarcoma cell variants that exhibit distinct metastatic properties was explored. The search for the expression of II different oncogenes revealed that the major oncogene in those two tumor systems is the Kirsten‐ras (ki‐ras). The results indicate that the amounts of specific ki‐ras mRNA and the p21 protein are similar in both low‐ and highmetastatic counterparts. These results suggest that in these systems there is no apparent direct correlation between the amount and expression of the major cellular oncogene so far identified and the metastatic potential of these tumor cells.
Abstract Antibodies towards the ganglioside G M1 [galactosyl‐N‐acetylgalactosaminyl‐(N‐acetylneuraminyl)‐galactosylglucosyl ceramide] stimulated DNA synthesis in rat thymocytes. No mitogenic stimulation was observed with the monomeric Fab fragment of anti‐G M1 , suggesting that cross‐linking of the gangliosides or associated components was required for activation by these antibodies. Incubation of thymocytes with anti‐G M1 and fluorescein‐labeled anti‐rabbit IgG at 0°C resulted in uniform ring‐like or patchy staining that developed into a pronounced cap upon elevation of temperature. The cap had a characteristic uropod form, enriched with intracellular organelles. Sodium azide and cytochalasin B completely inhibited cap formation, while colchicine was without effect. These results imply a possible direct or indirect association between surface gangliosides and submembraneous cytoskeletal assemblies that control modulation of these surface components and may transmit stimuli to the interior of the cell.
Background : Pulmonary adenocarcinomas constitute a different histological subtype among the histological subtypes of non small cell lung carcinomas by showing comparably unfavourable rates of prognosis and different immunobiological features. Autonomous motility of tumour cells plays an important role in the regulation of local invasion and distant metastasis of tumour lesions which have great impact on overall survival. AMF (Autocrine motility factor) is a tumour secreted cytokine that stimulates motility during invasion and metastasis via its receptor, AMFR. We conducted an immunohistochemical study to investigate AMFR expression in pulmonary adenocarcinomas and its effect on survival.Material and methods : We assessed AMFR expression using a monoclonal antibody (3F3A) in a total of 32 surgical specimens with stage I pulmonary adenocarcinomas that underwent curative resection. We analyzed AMFR expression as a possible prognostic factor on survival and its correlations with clinicopathological features. Results : A total of 19 (59.3%) specimens showed AMFR expression. The 3-year survival rates of AMFR positive and AMFR negative patients were 47.3% and 84.6%, respectively, which was a significant difference (P = 0.0197). The univariate predictors of surgical outcome were AMFR expression (P = 0.032) and perineural invasion (P = 0.038). However, multivariate analysis revealed AMFR expression (P = 0.045) as the only independent prognostic factor. Conclusions : AMFR expression predicts an unfavourable surgical outcome in patients with stage I pulmonary adenocarcinomas.
