Researchers have successfully used patients’ own P63+ lung progenitor cells to repair damaged lung tissue in COPD patients, improving their quality of life. Initial results from the phase I clinical trial were promising, showing improvement in lung function, breathlessness, and exercise capacity, with plans for a phase II trial underway.
Researchers have demonstrated the potential to heal injured lung tissue in chronic obstructive pulmonary disease (COPD) patients using their own lung cells for the first time.
A study recently presented at the European Respiratory Society International Congress in Milan, Italy reported that 17 participants from a phase I clinical trial experienced improved breathing, enhanced walking distance, and a heightened quality of life after receiving the experimental treatment.
COPD kills approximately three million people worldwide every year. It is a severe respiratory disease that involves progressive damage to lung tissue. The affected tissue cannot be repaired with current treatments, only alleviated with medicines that widen the airways to improve airflow, known as bronchodilators.
To find new treatments for COPD, researchers have been investigating stem cells, which are capable of differentiating into any cell in the body, and progenitor cells, which are descendants of stem cells and can only differentiate into the cells that belong to the same tissue or organ and are normally used by the body to repair and replace damaged tissue. However, to date, the results have been conflicting, particularly for stem cells.
Professor Wei Zuo, of the School of Medicine, Tongji University, Shanghai, China, and chief scientist at Regend Therapeutics Ltd in China, and his colleagues have been investigating whether a type of cell called P63+ lung progenitor cells might be able to regenerate lung tissue damaged by COPD.
“Stem cell and progenitor cell-based regenerative medicine may be the biggest, if not the only, hope to cure COPD,” he told the congress. “P63+ progenitor cells are known for their ability to regenerate the tissues of the airways, and previously we and other scientists have shown in animal experiments that they can repair the damaged epithelial tissue in the alveoli – the tiny air sacs in the lungs that play a crucial role in the exchange of gases between air breathed in and the blood supply to the lungs.”
In this first phase I clinical trial, the researchers set out to investigate the efficacy and safety of taking P63+ progenitor cells from the lungs of 20 COPD patients, using them to grow millions more in the laboratory, before transplanting them back into the patients’ lungs.
“In our trial, 35% of the patients had severe COPD and 53% had extremely severe COPD. Usually, many patients with such severe COPD will die quite quickly if their disease progresses. We used a tiny catheter that contains a brush to collect the progenitor cells from the patients’ own airways. We cloned the cells to create up to a thousand million more, and then we transplanted them back into the patients’ lungs via bronchoscopy in order to repair the damaged lung tissue.”
Of the 20 patients, 17 were treated in this way and three were not and constituted the control group. They were assessed within 24 weeks of treatment to evaluate how well they tolerated the treatment and its effectiveness.
The cell treatment was well tolerated by all patients. After 12 weeks, the median (average) diffusing capacity of the lungs (DLCO), which tests how well air is exchanged between the lungs and the bloodstream, increased from 30% before treatment to 39.7% and then increased further to 40.3% at 24 weeks in the treated patients. The median distance covered in a six-minute walk distance test (6MWD) increased from 410 metres before treatment to 447 meters at 24 weeks. The median score in a quality-of-life test (St George’s Respiratory Questionnaire or SGRQ) was reduced by seven points, indicating an improvement. In two patients with mild emphysema, a type of lung damage that is normally permanent and progressive, the treatment repaired the lung damage.
Prof. Zuo said: “We found that P63+ progenitor cell transplantation, not only improved the lung function of patients with COPD but also relieved their symptoms, such as shortness of breath, loss of exercise ability, and persistent coughing. This means that the patients could live a better life, usually with longer life expectancy.
“If emphysema progresses, it increases the risk of death. In this trial, we found that P63+ progenitor cell transplantation could repair mild emphysema, making the lung damage disappear. However, we cannot repair severe emphysema yet.”
The researchers are planning a phase II trial of the treatment, which will evaluate its efficacy in a larger group of patients. The trial has been approved by China’s National Medical Products Administration (NMPA), the Chinese equivalent of the US Food and Drugs Administration (FDA). This means that the treatment is not generally available to COPD patients and their doctors yet.
“However, with more doctors and patients participating in our clinical trial, we may develop the treatment more quickly so that it can benefit patients sooner,” said Prof. Zuo. “A similar therapeutic strategy is also being tested in patients with lethal lung fibrotic diseases, including idiopathic pulmonary fibrosis. We are going to test the treatment’s efficacy in larger groups of people with more lung diseases. We hope to develop the treatment for clinical use within about two to three years.”
Professor Omar Usmani, of Imperial College LondonEstablished on July 8, 1907, by Royal Charter, Imperial College London is a public research university in London with a focus on science, engineering, medicine, and business. Its main campus is located in South Kensington, and it has an innovation campus in White City, a research field station at Silwood Park, and teaching hospitals throughout London. Its full legal name is the Imperial College of Science, Technology and Medicine.” data-gt-translate-attributes=”[{“attribute”:”data-cmtooltip”, “format”:”html”}]”>Imperial College London (UK), is Head of the European Respiratory Society group on airways disease, asthma, COPD, and chronic cough. He commented: “The results from this phase I clinical trial are encouraging. COPD is in desperate need of new and more effective treatments, so if these results can be confirmed in subsequent clinical trials it will be very exciting. It is also very encouraging that two patients with emphysema responded so well. A limitation of this study is that the uptake of the progenitor cells when they were transplanted back into the patients is uncontrolled. So we do not know whether the lungs of some patients responded better to the transplantation than others. We hope this information may become apparent in future studies.”
Reference: “Autologous transplantation of P63+ lung progenitor cells for chronic obstructive pulmonary disease therapy” by Wei Zuo et al, 12 September 2023, European Respiratory Society International Congress 2023.
The research was funded by Regend Therapeutics Ltd.
Source: SciTechDaily
