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Researchers unravel why episodes of low blood sugar worsen eye disease in people with diabetes

Article

Patients diagnosed with diabetic retinopathy may be particularly vulnerable to periods of low glucose, and keeping glucose levels stable should be an important part of glucose control.

Close up of an eye hued in blue, with digital web effects over the image.

Eye disease among people with diabetes is among the most preventable causes of blindness in the U.S. (Adobe Stock image)

People with diabetes who experience periods of low blood sugar — a common occurrence in those new to blood sugar management — are more likely to have worsening diabetic eye disease.

Now, researchers at Johns Hopkins Medicine say they have linked such low blood sugar levels with a molecular pathway that is turned on in oxygen-starved cells in the eye.

According to a Johns Hopkins Medicine news release, the research, involving human and mouse eye cells and intact retinas grown in a low sugar (low glucose) environment in the laboratory, as well as mice with low glucose levels, was published in the January issue of Cell Reports.1

Akrit Sodhi, MD, PhD, the Branna and Irving Sisenwein Professor of Ophthalmology at the Wilmer Eye Institute at Johns Hopkins Medicine, pointed out in the news release that temporary episodes of low glucose happen once or twice a day in people with insulin-dependent diabetes and often among people newly diagnosed with the condition.

“Our results show that these periodic low glucose levels cause an increase in certain retinal cell proteins, resulting in an overgrowth of blood vessels and worsening diabetic eye disease,” Sodhi said in the news release.

Eye disease among people with diabetes is among the most preventable causes of blindness in the U.S. Diabetic retinopathy, which occurs in up to a third of people with diabetes, is characterized by the overgrowth of abnormal blood vessels in the retina.

Moreover, Sodhi pointed out that the study suggests that people with diabetic retinopathy may be particularly vulnerable to periods of low glucose, and keeping glucose levels stable should be an important part of glucose control.

For the study, the researchers analyzed protein levels in human and mouse retinal cells and intact retinas grown in an environment of low glucose in the laboratory, as well as in mice that had occasional low blood sugar.

According to Johns Hopkins Medicine, the researchers found that low glucose levels in human and mouse retinal cells caused a cascade of molecular changes that can lead to blood vessel overgrowth. First, the researchers saw that low glucose caused a decrease in retinal cells’ ability to break down glucose for energy.

When the researchers looked specifically at so-called Müller glial cells, which are supportive cells for neurons in the retina and rely primarily on glucose for energy production, they found that the cells increased the expression of the GLUT1 gene, which makes a protein that transports glucose into cells.

According to the news release, the researchers found that, in response to low glucose, the cells increased levels of a transcription factor, called hypoxia-inducible factor (HIF)-1α. This turned on the cellular machinery — including GLUT1 — needed to improve their ability to utilize available glucose, preserving the limited oxygen available for energy production by retinal neurons.

However, in low-oxygen environments, as occurs in the retinas of patients with diabetic eye disease, this normal, physiologic response to low glucose triggered a flood of HIF-1α protein into the cells’ nucleus, the cell’s control center.

This resulted in an increase in the production of proteins such as VEGF and ANGPTL4, which cause the growth of abnormal, leaky blood vessels — the key culprit of vision loss in people with diabetic eye disease.

The researchers plan to study whether low glucose levels in people with diabetes may impact similar molecular pathways in other organs, such as the kidney and brain.

Sodhi said in the news release that the HIF-1α pathway may serve as an effective target for developing new treatments for diabetic eye disease.

Other researchers involved in the study include Chuanyu Guo, Monika Deshpande, Yueqi Niu, Isha Kachwala, Haley Megarity, Taylor Nuse, Savalan Babapoor-Farrokhran, Michael Ramada, Jaron Sanchez, Neelay Inamdar and Thomas V. Johnson of Johns Hopkins; Miguel Flores-Bellver and Maria Valeria Canto-Soler of the University of Colorado; and Silvia Montaner of the University of Maryland.

Sodhi is a co-founder of and holds equity in HIF Therapeutics Inc. This arrangement has been reviewed and approved by The Johns Hopkins University in accordance with its conflict of interest policies.

According to the news release, the research was funded by the National Institutes of Health's National Eye Institute, Research to Prevent Blindness, the CellSight Development Fund; the Doni Solich Family Chair in Ocular Stem Cell Research, and the Branna and Irving Sisenwein Professorship in Ophthalmology.

Reference
1. Akrit Sodhi, MD, PhD; Chuanyu Guo, Monika Deshpande; Yueqi Niu; Isha Kachwala; Haley Megarity; Taylor Nuse; Savalan Babapoor-Farrokhran; Michael Ramada; Jaron Sanchez; Neelay Inamdar; Thomas V. Johnson; Miguel Flores-Bellver; Maria Valeria Canto-Soler; Silvia Montaner. HIF-1a accumulation in response to transient hupoglycemia may worsen diabetic eye disease. Cell Reports. Published January 2023. DOI: https://doi.0rg/10.1016/j.celrep.2022.111976
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