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6 results on '"Uhlen, M."'

4. Genome-wide annotation of protein-coding genes in pig.

Author

Karlsson M, Sjöstedt E, Oksvold P, Sivertsson Å, Huang J, Álvez MB, Arif M, Li X, Lin L, Yu J, Ma T, Xu F, Han P, Jiang H, Mardinoglu A, Zhang C, von Feilitzen K, Xu X, Wang J, Yang H, Bolund L, Zhong W, Fagerberg L, Lindskog C, Pontén F, Mulder J, Luo Y, and Uhlen M

Subjects
Animals, Gene Expression Profiling, Mammals, Molecular Sequence Annotation, Organ Specificity, Swine genetics, Transcriptome, Genome, Genomics
Abstract

Background: There is a need for functional genome-wide annotation of the protein-coding genes to get a deeper understanding of mammalian biology. Here, a new annotation strategy is introduced based on dimensionality reduction and density-based clustering of whole-body co-expression patterns. This strategy has been used to explore the gene expression landscape in pig, and we present a whole-body map of all protein-coding genes in all major pig tissues and organs., Results: An open-access pig expression map ( www.rnaatlas.org ) is presented based on the expression of 350 samples across 98 well-defined pig tissues divided into 44 tissue groups. A new UMAP-based classification scheme is introduced, in which all protein-coding genes are stratified into tissue expression clusters based on body-wide expression profiles. The distribution and tissue specificity of all 22,342 protein-coding pig genes are presented., Conclusions: Here, we present a new genome-wide annotation strategy based on dimensionality reduction and density-based clustering. A genome-wide resource of the transcriptome map across all major tissues and organs in pig is presented, and the data is available as an open-access resource ( www.rnaatlas.org ), including a comparison to the expression of human orthologs., (© 2022. The Author(s).)

Published
2022
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5. Discovery of KIRREL as a biomarker for prognostic stratification of patients with thin melanoma.

Author

Lundgren S, Fagerström-Vahman H, Zhang C, Ben-Dror L, Mardinoglu A, Uhlen M, Nodin B, and Jirström K

Abstract

There is a great unmet clinical need to identify patients with thin primary cutaneous melanomas (T1, Breslow thickness ≤ 1 mm) who have a high risk for tumour recurrence and death from melanoma. Kin of IRRE-like protein 1 (KIRREL/NEPH1) is expressed in podocytes and involved in glomerular filtration. Screening in the Human Protein Atlas portal revealed a particularly high expression of KIRREL in melanoma, both at the mRNA and protein levels. In this study, we followed up on these findings and examined the prognostic value of KIRREL in a population-based cohort. Immunohistochemical expression of KIRREL was examined in tissue microarrays with a subset of primary tumours and paired lymph node metastases from an original cohort of 268 incident cases of melanoma in the Malmö Diet and Cancer study. KIRREL mRNA expression was examined in 103 melanoma cases in The Cancer Genome Atlas (TCGA). Membranous/cytoplasmic expression of KIRREL was detected in 158/185 (85.4%) primary tumours and 18/19 (94.7%) metastases. High expression of KIRREL was significantly associated with several unfavourable clinicopathological factors. High KIRREL protein expression was an independent factor of reduced recurrence free and melanoma specific survival, particularly in thin melanomas, even outperforming absolute thickness and ulceration (HR = 30.85; 95% CI 1.54-616.36 and HR = 6.32 95% CI 1.19-33.65). High mRNA levels of KIRREL were not significantly associated with survival in TCGA. In conclusion, KIRREL is not only a novel potential diagnostic marker for melanoma, but may also be a useful prognostic biomarker for improved stratification of patients with thin melanoma. These findings may be of high clinical relevance and therefore merit further validation., Competing Interests: All national and European Union regulations and requirements for handling human samples have been fully complied with during the conduct of this study; i.e. decision no. 1110/94/EC of the European Parliament and of the Council (OJL126 18,5,94), the Helsinki Declaration on ethical principles for medical research involving human subjects, and the European Union Council Convention on human rights and Biomedicine. Approval for the study was obtained from the Ethics committee of Lund University (reference number 530/2008 and 445/07), whereby the committee waived no need for consent other than the option to opt out.Not applicable.The authors declare that they have no competing interests.Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Published
2019
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6. Characterization of Diaphanous-related formin FMNL2 in human tissues.

Author

Gardberg M, Talvinen K, Kaipio K, Iljin K, Kampf C, Uhlen M, and Carpén O

Subjects
Actins metabolism, Cell Line, Tumor, Cell Movement, Cell Surface Extensions metabolism, Central Nervous System pathology, Computational Biology, Cytoplasm metabolism, Epithelium pathology, Formins, Gene Expression Profiling, Humans, Lymphoid Tissue metabolism, Lymphoid Tissue pathology, Mesenchymal Stem Cells pathology, Protein Binding, Protein Transport, Proteins genetics, Proteins immunology, Central Nervous System metabolism, Epithelium metabolism, Mesenchymal Stem Cells metabolism, Proteins metabolism
Abstract

Background: Diaphanous-related formins govern actin-based processes involved in many cellular functions, such as cell movement and invasion. Possible connections to developmental processes and cellular changes associated with malignant phenotype make them interesting study targets. In spite of this, very little is known of the tissue distribution and cellular location of any mammalian formin. Here we have carried out a comprehensive analysis of the formin family member formin -like 2 (FMNL2) in human tissues., Results: An FMNL2 antibody was raised and characterized. The affinity-purified FMNL2 antibody was validated by Western blotting, Northern blotting, a peptide competition assay and siRNA experiments. Bioinformatics-based mRNA profiling indicated that FMNL2 is widely expressed in human tissues. The highest mRNA levels were seen in central and peripheral nervous systems. Immunohistochemical analysis of 26 different human tissues showed that FMNL2 is widely expressed, in agreement with the mRNA profile. The widest expression was detected in the central nervous system, since both neurons and glial cells expressed FMNL2. Strong expression was also seen in many epithelia. However, the expression in different cell types was not ubiquitous. Many mesenchymal cell types showed weak immunoreactivity and cells lacking expression were seen in many tissues. The subcellular location of FMNL2 was cytoplasmic, and in some tissues a strong perinuclear dot was detected. In cultured cells FMNL2 showed mostly a cytoplasmic localization with perinuclear accumulation consistent with the Golgi apparatus. Furthermore, FMNL2 co-localized with F-actin to the tips of cellular protrusions in WM164 human melanoma cells. This finding is in line with FMNL2's proposed function in the formation of actin filaments in cellular protrusions, during amoeboid cellular migration., Conclusion: FMNL2 is expressed in multiple human tissues, not only in the central nervous system. The expression is especially strong in gastrointestinal and mammary epithelia, lymphatic tissues, placenta, and in the reproductive tract. In cultured melanoma cells, FMNL2 co-localizes with F-actin dots at the tips of cellular protrusions.

Published
2010
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