An experimental monoclonal antibody drug called mAb43 appears to prevent and reverse the onset of clinical type 1 diabetes in mice, in some cases lengthening the animals’ lifespan, report scientists at Johns Hopkins Medicine.
The drug is unique, according to the researchers, because it targets insulin-making beta cells in the pancreas directly and is designed to shield those cells from attacks by the body’s own immune system cells. The drug’s specificity for such cells may enable long-term use in humans with few side effects, say the researchers. Monoclonal antibodies are made by cloning, or making identical replicas of, an animal (including human) cell line.
The findings, published in Diabetes, raise the possibility of a new drug for type 1 diabetes, an autoimmune condition which has no cure or means of prevention. Unlike type 2 diabetes, in which the pancreas makes too little insulin, in type 1 diabetes, the pancreas makes no insulin because the immune system attacks the pancreatic cells that make it.
The lack of insulin interferes with the body’s ability to regulate blood sugar levels.
According to Dax Fu, PhD, associate professor of physiology at the Johns Hopkins University School of Medicine and leader of the research team, mAb43 binds to a small protein on the surface of beta cells, which dwell in clusters called islets. The drug was designed to provide a kind of shield or cloak to hide beta cells from immune system cells that attack them as “invaders.” The researchers used a mouse version of the monoclonal antibody, and will need to develop a humanised version for studies in people.
For the current study, the researchers gave 64 non-obese mice bred to develop type 1 diabetes a weekly dose of mAb43 via intravenous injection when they were 10 weeks old. After 35 weeks, all mice were non-diabetic. One of the mice developed diabetes for a period of time, but it recovered at 35 weeks, and that mouse had early signs of diabetes before the antibody was administered.
In five of the same type of diabetes-prone mice, the researchers held off giving weekly mAb43 doses until they were 14 weeks old, and then continued dosages and monitoring for up to 75 weeks. One of the five in the group developed diabetes, but no adverse events were found, say the researchers.
In the experiments in which mAb43 was given early on, the mice lived for the duration of the monitoring period of 75 weeks, compared with the control group of mice that did not receive the drug and lived about 18-40 weeks.
Next, the researchers, including postdoctoral fellows Devi Kasinathan and Zheng Guo, looked more closely at the mice that received mAb43 and used a biological marker called Ki67 to see if beta cells were multiplying in the pancreas. They said, after treatment with the antibody, immune cells retreated from beta cells, reducing the amount of inflammation in the area. In addition, beta cells slowly began reproducing.
“mAb43 in combination with insulin therapy may have the potential to gradually reduce insulin use while beta cells regenerate, ultimately eliminating the need to use insulin supplementation for glycaemic control,” says Kasinathan.
The research team found that mAb43 specifically bound to beta cells, which make up about 1% or 2% of pancreas cells.
Another monoclonal antibody drug, teplizumab, received US Food and Drug Administration approval in 2022. Teplizumab binds to T cells, making them less harmful to insulin-producing beta cells. The drug has been shown to delay the onset of clinical (stage 3) type 1 diabetes by about two years, giving young children who get the disease time to mature and learn to manage lifelong insulin injections and dietary restrictions.
“It’s possible that mAb43 could be used for longer than teplizumab and delay diabetes onset for a much longer time, potentially for as long as it’s administered,” says Fu.
Source: John Hopkins Medicine