Exposure to a specific type of blue-green algae toxin known as cylindrospermopsin has shown to wreak havoc on gut bacteria and an increased probability of irritable bowel syndrome, inflammatory bowel disease, celiac disease, type 1 diabetes, obesity and inflammation of the liver – a precursor to liver cancer – according to a study led by the University of California, Irvine.
In a study published in the journal Toxins, Saurabh Chatterjee, PhD, corresponding author and professor of environmental and occupational health in UCI's Program in Public Health and professor of medicine at the UCI School of Medicine, was the first to report on a possible connection between oral exposure to cylindrospermopsin (a form of cyanobacteria) and liver damage via the "gut-connection."
Cyanobacteria, commonly known as 'blue-green algae' are photosynthetic organisms that form from light energy and inorganic compounds, which are found in all sorts of water systems. Climate change-related stressors increase the excessive growth of these cyanobacteria present in the water bodies, a phenomenon also known as the formation of harmful algal blooms.
The researchers had previously reported the gut-brain-mind connection of another cyanotoxin named microcystin. Using mouse models, Punnag Saha, first author of this study and a UCI doctoral student in Chatterjee's research lab, analyzed the effects of oral exposure from these harmful algal blooms on the gut bacteria environment and observed a marked increase in opportunistic pathogens with a parallel decrease in beneficial bacterial populations. This imbalance in normal physiological functions disrupts intestinal stability and is the likely drive to a greater risk of disease.
The intestinal microbiome encompasses a diverse variety of microorganisms, including bacteria, archaea, fungi, and protozoa, colonizing the small and large intestines. The intestine is home to more than 100 trillion commensal bacteria, which form the major population among the other microorganisms and play a pivotal role in the host's metabolism, immunity, physiology, and nutrition.
Extensive research has already linked alterations in the gut microbiome to metabolic conditions like obesity, liver disease, Parkinson's disease and more. We're seeing more research come out that is showing linkages between exposure to environmental factors like blue-green algae and pesticides to adverse effects on pathophysiology."
Punnag Saha, first author of the study
Chatterjee's research group has a long history of working with climate change-based cyanotoxins. The lab's research paves the way for future in-depth mechanistic studies, which will help toxicologists better comprehend the overall toxicity of blue-green algae and its role in the intestinal microenvironment.
"Climate change is causing slow yet alarming changes to how the environment is affecting human health and disease progression. Though there is current emphasis on the fact that climate change is affecting ecology and the built environment, not enough studies are focusing on its effects on human health and disease," Chatterjee explained. "Climate change stressors such as harmful algae, heat stress from periodic heat waves, and increases in cholera-causing bacteria in the coastal areas all have a significant role to play in susceptible populations such as children, elderly and in those with an underlying metabolic disease."
The study was declared as a "Featured" contribution to the journal, an honor that is bestowed on a select few articles published in this Q1 journal in Toxicology. This study was supported by NIH/NIEHS Grant # 1P01ES028942-01.
Additional authors on this study include Dipro Bose, Madhura More, Subhajit Roy and Ayushi Trivedi all doctoral students from the UCI Program in Public Health; Macayla Upright and Geoff I. Scott both from the University of South Carolina Arnold School of Public Health, of University of South Carolina Arnold School of Public Health; and Bryan Brooks of Baylor University.
University of California, Irvine
Saha, P., et al. (2022) Subchronic Oral Cylindrospermopsin Exposure Alters the Host Gut Microbiome and Is Associated with Progressive Hepatic Inflammation, Stellate Cell Activation, and Mild Fibrosis in a Preclinical Study. Toxins. doi.org/10.3390/toxins14120835.
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Tags: Archaea, Bacteria, Brain, Cancer, Celiac Disease, Children, Cholera, Climate Change, Cyanobacteria, Diabetes, fungi, heat, immunity, Inflammation, Inflammatory Bowel Disease, Irritable Bowel Syndrome, Liver, Liver Cancer, Liver Disease, Medicine, Metabolic Disease, Metabolism, Microbiome, Nutrition, Obesity, Occupational Health, Parkinson's Disease, Pathophysiology, Pesticides, Physiology, Public Health, Research, Stress, students, Syndrome, Toxicology, Toxin, Toxins, Type 1 Diabetes
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