Your search keyword '"Michelle L. Matter"' showing total 6 results

1. Editorial: Molecular regulation of tumor cells migration and metastatic growth

Author

Michelle L. Matter and Vasiliki Gkretsi

Subjects

migration, invasion, metastasis, miRNAs, EMT, uPA, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Published

2023

2. Transcriptome profiling of colorectal tumors from patients with sepsis reveals an ethnic basis for viral infection risk and sepsis progression

Author

Natalija Glibetic, Yurii B. Shvetsov, Femke J. Aan, Karolina Peplowska, Brenda Y. Hernandez, and Michelle L. Matter

Subjects

Medicine, Science

Abstract

Abstract Mortality from cancer-associated sepsis varies by cancer site and host responses to sepsis are heterogenous. Native Hawaiians have the highest mortality risk from cancer-associated sepsis and colorectal cancer (CRC), even though they demonstrate lower CRC incidence compared to other ethnicities. We conducted a retrospective transcriptomic analysis of CRC tumors and adjacent non-tumor tissue from adult patients of Native Hawaiian and Japanese ethnicity who died from cancer-associated sepsis. We examined differential gene expression in relation to patient survival and sepsis disease etiology. Native Hawaiian CRC patients diagnosed with sepsis had a median survival of 5 (IQR 4–49) months, compared to 117 (IQR 30–146) months for Japanese patients. Transcriptomic analyses identified two distinct sepsis gene signatures classified as early response and late response sepsis genes that were significantly altered in the Native Hawaiian cohort. Analysis of canonical pathways revealed significant up and downregulation in mechanisms of viral exit from host cells (p = 4.52E−04) and epithelial junction remodeling (p = 4.01E−05). Key genes including elongation initiation factor pathway genes, GSK3B, and regulatory associated protein of mTOR (RPTOR) genes that protect cells from infection were significantly downregulated in Native Hawaiians. Genes promoting sepsis progression including CLOCK, PPBP and Rho family GTPASE 2 (RND2) were upregulated in Native Hawaiian patients. Our transcriptomic approach advances understanding of sepsis heterogeneity by revealing a role of genetic background and defining patient subgroups with altered early and late biological responses to sepsis. This study is the first to investigate differential gene expression in CRC-associated sepsis patients in relation to ethnicity. Our findings may lead to personalized approaches in stratifying patient mortality risk for sepsis and in the development of effective targeted therapies for sepsis.

Published

2022

3. RSK1 and RSK2 serine/threonine kinases regulate different transcription programs in cancer

Author

Won Seok Yang, Maisel J. Caliva, Vedbar S. Khadka, Maarit Tiirikainen, Michelle L. Matter, Youping Deng, and Joe W. Ramos

Subjects

RSK, transcription, microarray, cell cycle, immune response, kinase, Biology (General), QH301-705.5

Abstract

The 90 kDa ribosomal S6 kinases (RSKs) are serine threonine kinases comprising four isoforms. The isoforms can have overlapping functions in regulation of migration, invasion, proliferation, survival, and transcription in various cancer types. However, isoform specific differences in RSK1 versus RSK2 functions in gene regulation are not yet defined. Here, we delineate ribosomal S6 kinases isoform-specific transcriptional gene regulation by comparing transcription programs in RSK1 and RSK2 knockout cells using microarray analysis. Microarray analysis revealed significantly different mRNA expression patterns between RSK1 knockout and RSK2 knockout cell lines. Importantly some of these functions have not been previously recognized. Our analysis revealed RSK1 has specific roles in cell adhesion, cell cycle regulation and DNA replication and repair pathways, while RSK2 has specific roles in the immune response and interferon signaling pathways. We further validated that the identified gene sets significantly correlated with mRNA datasets from cancer patients. We examined the functional significance of the identified transcriptional programs using cell assays. In alignment with the microarray analysis, we found that RSK1 modulates the mRNA and protein expression of Fibronectin1, affecting cell adhesion and CDK2, affecting S-phase arrest in the cell cycle, and impairing DNA replication and repair. Under similar conditions, RSK2 showed increased ISG15 transcriptional expression, affecting the immune response pathway and cytokine expression. Collectively, our findings revealed the occurrence of RSK1 and RSK2 specific transcriptional regulation, defining separate functions of these closely related isoforms.

Published

2023

4. Measuring Mitochondrial Calcium Fluxes in Cardiomyocytes upon Mechanical Stretch-Induced Hypertrophy

Author

Daniela, Ramaccini, Carlotta, Giorgi, and Michelle L, Matter

Subjects

Heart Ventricles, Humans, Calcium, Myocytes, Cardiac, Calcium Signaling, Hypertrophy, Excitation Contraction Coupling

Abstract

Calcium Ca2+ regulation is a key component of numerous cellular functions. In cardiomyocytes, Ca2+ regulates excitation-contraction coupling and influences signaling cascades involved in cell metabolism and cell survival. Prolonged dysregulation of mitochondrial Ca2+ leads to dysfunctional cardiomyocytes, apoptosis and ultimately heart failure. VEGF promotes cardiomyocyte contractility by increasing calcium transients to control the strength of the heartbeat. Here, we describe a method to measure mitochondrial Ca2+ fluxes in human ventricular cardiomocytes after inducing stretch-mediated hypertrophy in vitro.

Published

2022

5. The Gut Microbiota, Nutrition, and Long-Term Disease Risk: A Mother and Child Perspective

Author

Vanessa Montoya-Uribe, Natalija Glibetic, Femke J. Aan, and Michelle L. Matter

Published

2022

6. The Role of Microbiota in Gut Inflammation and Sepsis

Author

Natalija Glibetic, Femke J. Aan, Vanessa Montoya-Uribe, and Michelle L. Matter

Published

2022