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BGU ResearchersDiscover How Proteins ‘Talk’ to Each Other Inside Human Cells

Human Cells

A collaborative research study recently published in the prestigious journal PNAS (Proceedings of the National Academy of Sciences) by researchers from Ben-Gurion University of the Negev, the National Institutes of Health in the USA and other institutions describes, for the first time, a novel molecular mechanism identified in human cells. The authors describe how proteins exploit the chloride ion to “talk” to each other.

In other words, the researchers found that chloride is a signaling ion which regulates protein function. This discovery sheds light on several physiological phenomena. In the future the reported findings hold the potential to help researchers understand mechanisms which underlie several diseases including cystic fibrosis, hypertension and breast cancer.

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Ions, which are often termed electrolytes, are charged atoms or molecules. Chloride and bicarbonate are the major negative ions crucial for the normal function of the human body.

Chloride can directly and indirectly regulate water and electrolyte movement across cellular membranes since ions do not diffuse ‘freely’ across membranes due to their electrical charge. Therefore, ion transport across membranes is facilitated by transport proteins expressed on cellular membranes. In recent years, it has emerged that chloride plays a variety of roles crucial to maintaining normal physiological processes. For example, chloride, and not only sodium, is critical for blood pressure control. Moreover, a significant increase in chloride excretion by exocrine glands such as sweat glands, the pancreas and salivary glands is a hallmark of the cystic fibrosis disease which was linked to mutations in a chloride transport protein.

Recently, the findings of a collaborative research study conducted by Dr. Ehud Ohana from the Department of Clinical Biochemistry and Pharmacology at BGU and the group of Prof. Shmuel Muallem from the National Institutes of Health and others was published in the prestigious scientific journal PNAS. Dr. Muallem’s group is a leader in the field of cellular and molecular physiology. The researchers discovered that chloride acts as an intracellular signaling ion that regulates a plethora of proteins. This novel finding is of fundamental physiological importance.

The research by Dr. Ohana, Dr. Muallem and their colleagues has important physiological implications since the chloride signaling mechanism regulates pivotal processes in human cells. Hence this mechanism would necessarily affect electrolyte and water regulation in the human body. This discovery holds the potential to serve as a target for pharmaceutical compounds aimed to cure diseases which are linked to chloride regulated proteins.



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