Fluorescent Dyes Used to Track Calcium Dynamics Cause Cell Damage, May Manipulate Findings

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WASHINGTON Chemical-based fluorescent calcium dyes used to study calcium dynamics cause cell damage upon loading over an extended period of time. These dyes are a common method for neuroscientists to study calcium dynamics in many cell types throughout the central nervous system. The findings appeared in Science Signaling on January 30, and are the first to quantify the negative cellular impacts of these calcium indicator dyes.

“This study serves as a warning to other neuroscientists,” says Nathan Smith, Ph.D., a principal investigator in the Center for Neuroscience Research at Children’s National Health System and first author of the study. “As many of my colleagues have noted, we’ve known that something was going on, but now, we have evidence that the longer these dyes stay in cells, or the longer time it takes to load them into cells, the more problems we see with normal cell function.”

The study comparatively analyzed the effects of chemical and genetically encoded calcium ion indicators on cellular functions, which had not been previously performed. The outcomes showed that all of the fluorescent calcium dyes, including Fluo-4, Rhod-2, and FURA-2, had negative consequences for a number of cellular functions. For example, the dyes inhibited the sodium potassium pump (Na,K-ATPase), a membrane protein essential for many cellular membrane functions including the exchange between intracellular sodium ions (Na+)and extracellular potassium ions (K+). Inhibiting the Na,K-ATPase process results in the buildup of K+ ions in the synapses, leading to errant neural firing that has been linked to a number of disorders, including epilepsy. Additional observed impacts of exposure to the dyes included reduced cell viability, decreased glucose uptake, increased lactate release and cell swelling.

“Now, our field needs to take a step back and reevaluate findings that may have been influenced by these chemical trackers, to make sure that our observations were driven by our intended manipulations and not this additional factor,” Dr. Smith continues.

Non-chemical alternatives

Tracking calcium ions and their dynamics within the central nervous system through fluorescent calcium indicators is the primary method of measuring glial activity and glial interactions with other cell types. Unlike neurons, glial cells are electrically non-excitable; therefore electrical-based recording methods used to measure neuronal activity are ineffective. 

In recent years, neuroscientists have developed additional methods to track calcium ions: genetically encoded calcium indicators (GECIs), which have grown in use since 2008. These GECIs have evolved over the years to have higher signal to noise ratios, target specific cell types and sub-compartments, and remain stable over time. 

“Our field has continued using these traditional calcium indicator dyes in labs because they are familiar and affordable,” Dr. Smith notes. “Our findings are a clear call to action that it’s time to revisit some of those approaches in favor of new technology.”

Dr. Smith’s lab uses GECIs exclusively to monitor the calcium dynamics of glial brain cells called astrocytes as well as their interactions with other cells such as neurons. His work now seeks to understand how those interactions influence neural networks and how they operate differently in neurodevelopmental disorders, including attention-deficit hyperactivity disorder (ADHD), epilepsy and others.

Media Contact: Jennifer Stinebiser | (703) 568-8825 | (202) 476-4500


About Children’s National Health System

Children’s National Health System, based in Washington, D.C., has been serving the nation’s children since 1870. Children’s National is #1 for babies and ranked in every specialty evaluated by U.S. News & World Report and has been designated two times as a Magnet® hospital, a designation given to hospitals that demonstrate the highest standards of nursing and patient care delivery. This pediatric academic health system offers expert care through a convenient, community-based primary care network and specialty outpatient centers in the D.C. Metropolitan area including the Maryland suburbs and Northern Virginia. Home to the Children’s Research Institute and the Sheikh Zayed Institute for Pediatric Surgical Innovation, Children’s National is one of the nation’s top NIH-funded pediatric institutions. Children’s National is recognized for its expertise and innovation in pediatric care and as a strong voice for children through advocacy at the local, regional and national levels.

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