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Mapping 1.6 Million Gut Cells to Find New Ways to Treat Disease

By combining 25 datasets, researchers have created the largest cohesive cell atlas of the human gut

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The most comprehensive cell map of the human gut to date has been created by combining spatial and single-cell data from 1.6 million cells.

Mapping the cells of the gut can provide us with further insights into what happens in conditions such as bowel cancer and Inflammatory Bowel Disease (IBD). Using this atlas, researchers from the Wellcome Sanger Institute and collaborators uncovered a new role of a specific gut cell, highlighting its contributions to a cycle of inflammation in some individuals, possibly causing pain and distress.

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The study, published 20 November in Nature, details how the team harmonised over 25 single-cell datasets of the human gastrointestinal (GI) tract to create the world's largest freely-available resource of the human gut to date. This includes samples from those with health conditions as well as those without.

By having a more complete picture of the human gut in health and disease, researchers can identify any key changes or differences that could be involved in the onset of conditions such as ulcerative colitis and Crohn's disease, and lead to new possible targets for drug development.

This paper is one of a collection of more than 40 HCA publications in Nature Portfolio journals that represent a milestone leap in our understanding of the human body. These highly complementary studies have shed light on central aspects of human development, and health and disease biology, and have led to the development of vital analytical tools and technologies, all of which will contribute to the creation of the Human Cell Atlas1.

The GI tract is the general name for a group of organs involved in the digestive system that work together to absorb nutrients from our food and act as a barrier against pathogens. It starts at the mouth and includes the throat, esophagus, stomach, small intestine, large intestine, rectum, and anus.

GI tract conditions impact millions of lives around the world. For example, ulcerative colitis and Crohn's disease, which are both types of IBD, affect over seven million people worldwide2, with one in every 123 people in the UK living with IBD3. IBD symptoms can vary between people and have a huge impact on a person's life. These include abdominal pain, diarrhea, rectal bleeding, extreme fatigue and joint problems.

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Bowel cancer, also known as colorectal cancer, starts in the large intestine and is the fourth most common cancer in the UK, with almost 43,000 people diagnosed every year4. Globally, there are around two million cases5, and it is estimated that one in 17 men and one in 20 women will be diagnosed with bowel cancer during their lifetime4.

Due to the impact of these conditions, there have been multiple single-cell studies investigating the cellular structure of the GI tract in health and disease. These studies have separate processes and labelling systems, which can create difficulties when external researchers attempt to use them.

In this latest study, researchers from the Wellcome Sanger Institute and collaborators developed a new tool to harmonise these data, creating a standardised resource of gut cells that is available to researchers worldwide. This tool could also be applied to other organs, and help facilitate further studies.

The team merged 25 datasets, resulting in an atlas of 1.6 million cells containing both single-cell and spatial data, allowing researchers to see what cells were present, where they were located, and how they communicated with the environment around them. The atlas was created with data from tissue samples from those without GI issues, as well as those with gastric and colorectal cancers, celiac disease, ulcerative colitis, and Crohn's disease.

The team also identified a type of gut cell that may have a role in inflammation. The cells, known as gut metaplastic cells, are known to be involved in healing the stomach lining. However, the team discovered that these cells contained genetic similarities to other GI cells involved in inflammation. They suggest that inflammation in IBD leads to changes in these metaplastic cells, which actively contributes to further inflammatory responses.

By understanding more about this cycle of inflammation, it might be possible to find new ways to prevent or treat this in IBD and possibly apply this knowledge to other tissues and conditions.

The Gut Cell Atlas is freely available, and the team has developed new processes to allow future studies to be added, creating an evolving, accessible resource for scientists.

Dr Amanda Oliver, first author from the Wellcome Sanger Institute, said: "Spatial and single-cell data provide unique information about how gut cells interact, that can be used to continue piecing together an in-depth understanding of how the human body works. Combining existing single-cell datasets allows us to create a more complete picture of the human gut and ensures that researchers can work together to continue to benefit human health. Our Gut Cell Atlas is also harmonised and freely available, and we hope that people will continue to build on this, adding in data for scientists worldwide to use."

Dr Rasa Elmentaite, co-senior author previously at the Wellcome Sanger Institute and currently at Ensocell Therapeutics, said: "As the integrated atlas contains such a large amount of data, from people with and without gut conditions, we were able to uncover a pathogenic cell type that may play a role in some chronic conditions and could be a target for intervention in the future. This demonstrates the power of using integrated single-cell atlases in research, and I am confident that applying this approach to other tissues and organs will drive new therapeutic discoveries for a range of conditions."

Professor Sarah Teichmann, co-senior author and co-founder of the Human Cell Atlas, previously at the Wellcome Sanger Institute and now at the Cambridge Stem Cell Institute at the University of Cambridge, said: "A detailed understanding of cells through the Human Cell Atlas will help explain many aspects of human health and disease and possibly illuminate new avenues for treatment. This harmonised Gut Cell Atlas shows what can be achieved through open collaboration with scientists worldwide, and has led to an accessible combined resource that can be used by everyone to find new ways to understand and treat disease."

The Gut Cell Atlas resource can be accessed here: https://www.gutcellatlas.org/

1. The HCA is an international collaborative consortium whose mission is to create comprehensive reference maps of all human cells -- the fundamental units of life -- as a basis for understanding human health and for diagnosing, monitoring, and treating disease. The HCA community is producing high quality Atlases of tissues, organs and systems, to create a milestone Atlas of the human body. More than 3,500 HCA members from over 100 countries are working together to achieve a diverse and accessible Atlas to benefit humanity across the world. Discoveries are already informing medical applications from diagnoses to drug discovery, and the Human Cell Atlas will impact every aspect of biology and healthcare, ultimately leading to a new era of precision medicine. https://www.humancellatlas.org

2. V. Jairath, B. G. Feagan. (2020) Global burden of inflammatory bowel disease. The Lancet. DOI: 10.1016/S2468-1253(19)30358-9

3. New research shows over 1 in 123 people in UK living with Crohn's or Colitis. (2022) Crohn's & Colitis UK, available at: https://crohnsandcolitis.org.uk/news-stories/news-items/new-research-shows-over-1-in-123-people-in-uk-living-with-crohn-s-or-colitis [Accessed July 2024]

4. Bowel cancer. (reviewed June 2024) Bowel Cancer UK, available at: https://www.bowelcanceruk.org.uk/about-bowel-cancer/bowel-cancer/ [Accessed November 2024]

5. E. Morgan, M. Arnold, A. Gini, et al. (2023) Global burden of colorectal cancer in 2020 and 2040: incidence and mortality estimates from GLOBOCAN. Gut. DOI: 10.1136/gutjnl-2022-327736.

-Note: This news release was originally published by the Wellcome Trust Sanger Institute. As it has been republished, it may deviate from our style guide.

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