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Diabetes Researching

Leveraging the Power of Light to Manage Type 1 Diabetes

A common problem in managing type 1 diabetes is maintaining relatively stable blood glucose levels. By the time a person realizes their blood sugar is rising or falling and begins to treat it, they may already experience spikes. This can be tough on the body and lead to over- or undertreatment in an effort to curb the highs or lows. Though technology has made it faster and easier to track blood glucose levels and more accurately administer insulin, it’s still not a perfect system.

A recent study reveals that researchers may have come up with a way to manage blood sugar without manually administering insulin. They engineered pancreatic beta cells to be responsive to exposure to blue light. By introducing a photoactivatable adenylate cyclase (PAC) enzyme into the cells, they produce a molecule that increases insulin production in response to high levels of glucose in the blood.

The molecule is turned on or off by blue light and can generate two to three times the typical amount of insulin produced by cells. However, it does not boost production when glucose levels in the blood are low. Furthermore, the cells do not require more oxygen than normal cells, which helps alleviate the common issue of oxygen starvation in transplanted cells.

The study was conducted on diabetic mice, so more research is needed to determine whether the process will be as effective in humans. If it is, this could mean that individuals with type 1 diabetes may have an option for controlling blood sugar levels without pharmacological intervention. When paired with a continuous glucose monitor (CGM) or other device as well as a source of blue light, it could create a closed loop model of managing the disease by functioning as a bioartificial pancreas.

This could be potentially life changing for individuals living with type 1 diabetes, and Diabetes Research Connection (DRC) is excited to see how the study progresses. Though not involved with this project, the DRC supports advancement of type 1 diabetes research and treatment options by providing critical funding for early career scientists pursuing novel research projects. Click to learn more about current projects and provide support.

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Role of the integrated stress response in type 1 diabetes pathogenesis
In individuals with type 1 diabetes (T1D), the insulin-producing beta cells are spontaneously destroyed by their own immune system. The trigger that provokes the immune system to destroy the beta cells is unknown. However, accumulating evidence suggest that signals are perhaps first sent out by the stressed beta cells that eventually attracts the immune cells. Stressed cells adapt different stress mitigation systems as an adaptive response. However, when these adaptive responses go awry, it results in cell death. One of the stress response mechanisms, namely the integrated stress response (ISR) is activated under a variety of stressful stimuli to promote cell survival. However, when ISR is chronically activated, it can be damaging to the cells and can lead to cell death. The role of the ISR in the context of T1D is unknown. Therefore, in this DRC funded study, we propose to study the ISR in the beta cells to determine its role in propagating T1D.
Wearable Skin Fluorescence Imaging Patch for the Detection of Blood Glucose Level on an Engineered Skin Platform
zhang
A Potential Second Cure for T1D by Re-Educating the Patient’s Immune System
L Ferreira
Validating the Hypothesis to Cure T1D by Eliminating the Rejection of Cells From Another Person by Farming Beta Cells From a Patient’s Own Stem Cells
Han Zhu
Taming a Particularly Lethal Category of Cells May Reduce/Eliminate the Onset of T1D
JRDwyer 2022 Lab 1
Can the Inhibition of One Specific Body Gene Prevent Type 1 Diabetes?
Melanie
Is Cholesterol Exacerbating T1D by Reducing the Functionality and Regeneration Ability of Residual Beta Cells?
Regeneration Ability of Residual Beta Cells
A Call to Question… Is T1D Caused by Dysfunctionality of Two Pancreatic Cells (β and α)?
Xin Tong
Novel therapy initiative with potential path to preventing T1D by targeting TWO components of T1D development (autoimmune response and beta-cell survival)
flavia pecanha