Trace concentrations, heavy implications: Influences of biometals on major brain pathologies of Alzheimer's disease.

Alzheimer's disease (AD) is a neurodegenerative condition that involves accumulation of toxic protein species, notably amyloid-ß (Aß)plaques and neurofibrillary tau tangles that are associated with cognitive decline. These proteins can bind metal ions, ultimately affecting their structure and function. In this review, we discuss key biometals such as zinc, copper, and iron that interact with protein species involved in AD, mainly Aß, tau, and the late-onset AD risk factor Apolipoprotein E (APOE). These metals interact with Aß and tau proteins, affecting their aggregation and toxicity. The allele variants of APOE also have different interactions with these metals, affecting APOE protein expression and aggregation of AD protein species.

Localization of Free and Bound Metal Species through X-Ray Synchrotron Fluorescence Microscopy in the Rodent Brain and Their Relation to Behavior.

Biometals in the brain, such as zinc, copper, and iron, are often discussed in cases of neurological disorders; however, these metals also have important regulatory functions and mediate cell signaling and plasticity. With the use of synchrotron X-ray fluorescence, our lab localized total, both bound and free, levels of zinc, copper, and iron in a cross section of one hemisphere of a rat brain, which also showed differing metal distributions in different regions within the hippocampus, the site in the brain known to be crucial for certain types of memory. This review discusses the several roles of these metals in brain regions with an emphasis on hippocampal cell signaling, based on spatial mapping obtained from X-ray fluorescence microscopy. We also discuss the localization of these metals and emphasize different cell types and receptors in regions with metal accumulation, as well as the potential relationship between this physiology and behavior.

Nest Building Behavior as an Early Indicator of Behavioral Deficits in Mice.

Nest building is an innate behavior in male and female rodents, even when raised in laboratory settings. As such, many researchers provide rodents synthetic and/or natural materials (such as twine, tissue, cotton, paper, and hay) as a gauge of their overall well-being and as an ancillary assessment to predict the possible decline in cognition. Typically, changes in nesting behaviors, such as failure to create a nest, indicate a change in health or welfare. In addition, nesting behavior is sensitive to many environmental and physiological challenges, as well as many genetic mutations underlying pathological disease states. The following protocol describes a nesting behavior paradigm that explores the usage of four types of nesting material. In addition, the protocol utilizes intraclass correlations to demonstrate that inter-rater reliability is higher when nests are constructed out of shredded paper compared to other common nesting materials such as cotton squares, paper twists, and soft cob bedding. The chosen methodology and statistical considerations (i.e., intraclass correlation) for this assay may be of interest for those conducting experiments assessing the quality of living of mice.