Publications by authors named "Linda Frintrop"
Anorexia nervosa (AN) induces organ dysfunction caused by malnutrition, including liver damage leading to a rise in transaminases due to hepatocyte damage. The underlying pathophysiology of starvation-induced liver damage is poorly understood. We investigate the effect of a 25% body weight reduction on murine livers in a mouse model and examine possible underlying mechanisms of starvation-induced liver damage.
View Article and Find Full Text PDFAnorexia nervosa (AN) is characterized by emaciation, hyperactivity, and amenorrhea. Imaging studies in AN patients have revealed reductions in grey and white matter volume, which correlate with the severity of neuropsychological deficits. However, the cellular basis for the observed brain atrophy is poorly understood.
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- Anorexia nervosa (AN) leads to symptoms like hyperactivity and brain atrophy, but its causes are largely unclear, which highlights the need for new treatment targets.
- This study developed a mouse model for AN by manipulating food intake and weight loss, observing the effects of acute versus chronic starvation on symptoms such as hyperactivity and amenorrhea.
- Results showed that chronic starvation, particularly with a 25% weight reduction in early adolescent or adolescent mice, effectively mimicked AN-related symptoms, allowing for further investigation of the disorder's effects on behavior, hormone levels, and brain structure.
Anorexia nervosa (AN) is characterized by emaciation, hyperactivity, and amenorrhea. To what extent AN-related symptoms are due to food restriction or neuronal dysfunction is currently unknown. Thus, we investigated the relevance of food restriction on AN-related symptoms.
View Article and Find Full Text PDFSiponimod ameliorates metabolic oligodendrocyte injury via the sphingosine-1 phosphate receptor 5.
Proc Natl Acad Sci U S A
October 2022
Article Synopsis
- Multiple sclerosis (MS) is a serious autoimmune disease that causes damage to the central nervous system, leading to various neurological issues, and while current treatments work well for early stages, they're less effective for the later stage known as secondary progressive MS (SPMS).
- This study investigates the drug siponimod, which affects specific receptors (sphingosine-1 phosphate receptors) and could help protect brain cells during SPMS by improving the function of glial cells, specifically oligodendrocytes.
- The research showed that siponimod helped reduce damage in an animal model of MS by preserving oligodendrocytes and their protective role in myelin, indicating its potential benefits for various neurodegenerative diseases, not
A new life starts with successful fertilization whereby one sperm from a pool of millions fertilizes the oocyte. Sperm motility is one key factor for this selection process, which depends on a coordinated flagellar movement. The flagellar beat cycle is regulated by Ca entry via CatSper, cAMP, Mg, ADP and ATP.
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- Microglia are crucial in understanding diseases like multiple sclerosis (MS), but there's a lack of studies comparing methods for evaluating their activation.
- This research tested three histological methods for detecting microglia activation using a cuprizone model that induces demyelination, showing significant activation after 3 weeks.
- It found that while all methods detected activation in white matter, examining microglial cell shapes was the most sensitive for detecting changes in the neocortical grey matter.
Eating behavior is controlled by hypothalamic circuits in which agouti-related peptide-expressing neurons when activated in the arcuate nucleus, promote food intake while pro-opiomelanocortin-producing neurons promote satiety. The respective neurotransmitters signal to other parts of the hypothalamus such as the paraventricular nucleus as well as several extra-hypothalamic brain regions to orchestrate eating behavior. This complex process of food intake may be influenced by glia cells, in particular astrocytes and microglia.
View Article and Find Full Text PDFAnorexia nervosa (AN) is an often chronic, difficult to treat illness that leads to brain volume reductions in gray and white matter. The underlying pathophysiology is poorly understood, despite its potential importance in explaining the neuropsychological deficits and clinical symptoms associated with the illness. We used the activity-based anorexia model (ABA), which includes food reduction and running wheel access in female rats to study brain changes after starvation and refeeding.
View Article and Find Full Text PDFBackground: Anorexia nervosa (AN) is often a chronic eating disorder characterised by body image disturbance and low body weight often associated with starvation-induced amenorrhoea and excessive exercise. Activity-based anorexia (ABA) is an animal model representing many somatic aspects of this psychiatric illness. We systematically manipulated the extent and length of starvation and animal age to find the optimal parameters to study chronic starvation.
View Article and Find Full Text PDFObjectives: Severe grey and white matter volume reductions were found in patients with anorexia nervosa (AN) that were linked to neuropsychological deficits while their underlying pathophysiology remains unclear. For the first time, we analysed the cellular basis of brain volume changes in an animal model (activity-based anorexia, ABA).
Methods: Female rats had 24 h/day running wheel access and received reduced food intake until a 25% weight reduction was reached and maintained for 2 weeks.
Objectives: Patients with anorexia nervosa (AN) suffer from neuropsychological deficits including memory impairments. Memory partially depends on 17β-oestradiol (E2), which is reduced in patients with AN. We assessed whether memory functions correlate with E2 plasma levels in the activity-based anorexia (ABA) rat model.
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