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Team identifies origin of deadly ovarian cancer

by Medical Xpress
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Cancer-prone Krt5+ pre-ciliated cells (red) and ciliated cells (green). A fluorescent dye (blue) reveals DNA in cells. Credit: Nikitin Lab

Researchers have identified the origin of ovarian cancer that develops in the fallopian tube, which opens doors to discovering new methods for diagnosing the disease and potential therapies.

The cancer, called high-grade serous carcinoma, is the chief and most aggressive form of ovarian cancer, the sixth-leading cause of death from cancer in women, with most patients dying within five years of detection. There are no symptoms, and no diagnostic tools have existed for early detection.

Scientists knew little about its origins, but a study published in Nature Communications identifies a transitional cell in the —called pre-ciliated tubal epithelial cells—as being especially cancer-prone.

Pre-ciliated cells develop from and are intermediaries in the lineage between stem cells and their final state, called ciliated cells, which allow movement of fluids and eggs in the fallopian tube.

“We not only identified cells where the cancer originates, but we identified mechanisms which can be potentially used for new therapeutics and new diagnostic tools,” said Dr. Alexander Nikitin, professor of pathology in the Department of Biomedical Sciences in the College of Veterinary Medicine and the paper’s senior author.

The study was done in mice. The fallopian tube in humans is called an oviduct in mice, so the researchers called it a uterine tube in order to refer to the same structure in both species. High-grade serous carcinoma develops in both the ovary and a part of the uterine tube. While previous work by Nikitin and colleagues has identified the origins of this cancer in the ovary, this is the first time they are identifying cancer-prone cells in the uterine tube.

The study’s first step characterized all the cell types found in the uterine tube, which had not been previously known. “The question was, to what extent all of the cells contribute to ,” Nikitin said.

Origin of deadly ovarian cancer identified
Census of cell types of the mouse uterine tube. a Diagram of a partially uncoiled mouse uterine tube. The proximal region contains few ciliated cells and extends from the intratubal junction to the ampulla. The distal region consists of the ampulla and the infundibulum where ciliated cells are abundant. b UMAP visualization of the cell types identified in a pool of 16,583 distal cells from 62 uterine tubes from which high quality sequence data was obtained. c Dot plot representation of genes associated with various tissue types to validate cell type identification. Source data are provided as a Source Data file. a was in part created with BioRender.com released under a Creative Commons Attribution-NonCommercial-NoDerivs license. Credit: Nature Communications (2024). DOI: 10.1038/s41467-024-52984-1

Nikitin and colleagues also knew that in human high-grade serous carcinomas a gene called TP53 (Trp53 in mice) is mutated in more than 96% of cases, while different components of a pathway controlled by another gene called retinoblastoma 1 (RB1 in humans, Rb1 in mice) are altered in more than 60% of cases. Both genes suppress tumors when working properly.

In previous research on high-grade serous carcinoma in the ovary, stem cells were a main culprit for cancer development after inactivation of Trp53 and Rb1. In the section of the uterine tube on which this study focused, called the distal tubal epithelium, stem cells differentiate to become either secretory or ciliated cells.

The researchers found no cancer developed, even a year after the treatment, when Trp53 and Rb1 were silenced in stem cells of engineered mice, revealing that such cells themselves were not the source of the cancer. Instead, they found the stem cells died after inactivation of either Trp53 alone or together with Rb1.

“They simply cannot live without Trp53, so instead of transforming cells, you eliminate them,” Nikitin said.,

The researchers noticed that high-grade serous carcinomas were formed in an engineered mouse after inactivation of Trp53 and Rb1 in cells expressing a gene called Pax8. Using computational analysis based on single-cell sequencing data, they looked for cells that were not stem cells but that expressed Pax8.

“We found there is a population of cells that really fits these criteria,” Nikitin said. “And the cells turn out to be premature cells of ciliogenesis, or pre-ciliated transitional cells.”

The pre-ciliated cells are characterized by expression of several that are very specific for different stages of the cell’s own development. One such gene, Krt5, is specific to these pre-ciliated transitional cells. In another line of engineered mice, the researchers inactivated Trp53 and Rb1 in Krt5 pre-ciliated cells, and found the efficiently formed high-grade serous carcinomas.

Ciliogenesis, or the formation of cilia, is well-studied, Nikitin said, which will make it easier to find potential diagnostic and therapeutic targets.

More information:
Andrea Flesken-Nikitin et al, Pre-ciliated tubal epithelial cells are prone to initiation of high-grade serous ovarian carcinoma, Nature Communications (2024). DOI: 10.1038/s41467-024-52984-1

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Cornell University


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Team identifies origin of deadly ovarian cancer (2024, October 16)
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