Potential indicator for the early detection of dementias
Tumisu, pixabay.com, CC0
The normal functioning of human cells is based on the coordinated interaction of different cellular organelles. In many cases, an impaired communication between these organelles will lead to the activation of a stress response to ensure the survival of affected cells. This has now been demonstrated in detail for brain neurons. The research group is headed by Prof. Dr. Stephan Frank from the Institute of Medical Genetics and Pathology at the University of Basel and University Hospital Basel; the Universities of Cambridge (UK) and Padua (Italy) were also involved.
The neuropathologists were able to show that impairments on the level of mitochondria, commonly known as the “cell’s powerhouses,“ also affect neighboring organelles, such as the so-called endoplasmic reticulum. A consecutively activated stress reaction leads to the release of fibroblast growth factor-21 (FGF21) by nerve cells with disturbed mitochondria. The Basel researchers further observed that the same substance is also induced in various models of neurodegenerative disorders, where it can be detected prior to neuronal cell death.
Therapies against chronic cell stress?
As chronic cell stress is an important factor in the development of neurodegenerative diseases, FGF21 could potentially be suitable as a biomarker for the pre-symptomatic detection of diseases such as Alzheimer's or Parkinson's. However, as FGF21 can also be produced by other tissues and organs, such as adipose tissue and liver, further rigorous testing will be required in this regard. The availability of a robust biomarker would represent an important advance in the development of novel approaches targeting chronic cell stress to provide neuroprotection.
Annual health care expenses for dementia-related neurodegenerative disorders amount to approx. CHF 7 billion in Switzerland, with demographic estimates projecting a 1.7 increase in the prevalence of these disorders over the next ten years due to increasing life expectancy.
Original publication
Lisa Michelle Restelli, Björn Oettinghaus, Mark Halliday, Cavit Agca, Maria Licci, Lara Sironi, Claudia Savoia, Jürgen Hench, Markus Tolnay, Albert Neutzner, Alexander Schmidt, Anne Eckert, Giovanna Mallucci, Luca Scorrano, Stephan Frank; "Neuronal mitochondrial dysfunction activates the integrated stress response to induce fibroblast growth factor 21"; Cell Reports; 2018
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Original publication
Lisa Michelle Restelli, Björn Oettinghaus, Mark Halliday, Cavit Agca, Maria Licci, Lara Sironi, Claudia Savoia, Jürgen Hench, Markus Tolnay, Albert Neutzner, Alexander Schmidt, Anne Eckert, Giovanna Mallucci, Luca Scorrano, Stephan Frank; "Neuronal mitochondrial dysfunction activates the integrated stress response to induce fibroblast growth factor 21"; Cell Reports; 2018
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