Alzheimer's Disease and Diabetes: Role of Diet, Microbiota and Inflammation in Preclinical Models

Alzheimer's disease (AD) is the most common cause of dementia. Epidemiological studies show the association between AD and type 2 diabetes (T2DM), although the mechanisms are not fully understood. Dietary habits and lifestyle, that are risk factors in both diseases, strongly modulate gut microbiota composition. Also, the brain-gut axis plays a relevant role in AD, diabetes and inflammation, through products of bacterial metabolism, like short-chain fatty acids. We provide a comprehensive review of current literature on the relation between dysbiosis, altered inflammatory cytokines profile and microglia in preclinical models of AD, T2DM and models that reproduce both diseases as commonly observed in the clinic. Increased proinflammatory cytokines, such as IL-1β and TNF-α, are widely detected. Microbiome analysis shows alterations in Actinobacteria, Bacteroidetes or Firmicutes phyla, among others. Altered α- and β-diversity is observed in mice depending on genotype, gender and age; therefore, alterations in bacteria taxa highly depend on the models and approaches. We also review the use of pre- and probiotic supplements, that by favoring a healthy microbiome ameliorate AD and T2DM pathologies. Whereas extensive studies have been carried out, further research would be necessary to fully understand the relation between diet, microbiome and inflammation in AD and T2DM.

Erythropoietin Improves Atrophy, Bleeding and Cognition in the Newborn Intraventricular Hemorrhage

The germinal matrix-intraventricular hemorrhage (GM-IVH) is one of the most devastating complications of prematurity. The short- and long-term neurodevelopmental consequences after severe GM-IVH are a major concern for neonatologists. These kids are at high risk of psychomotor alterations and cerebral palsy; however, therapeutic approaches are limited. Erythropoietin (EPO) has been previously used to treat several central nervous system complications due to its role in angiogenesis, neurogenesis and as growth factor. In addition, EPO is regularly used to reduce the number of transfusions in the preterm infant. Moreover, EPO crosses the blood-brain barrier and EPO receptors are expressed in the human brain throughout development. To analyze the role of EPO in the GM-IVH, we have administered intraventricular collagenase (Col) to P7 mice, as a model of GM-IVH of the preterm infant. After EPO treatment, we have characterized our animals in the short (14 days) and the long (70 days) term. In our hands, EPO treatment significantly limited brain atrophy and ventricle enlargement. EPO also restored neuronal density and ameliorated dendritic spine loss. Likewise, inflammation and small vessel bleeding were also reduced, resulting in the preservation of learning and memory abilities. Moreover, plasma gelsolin levels, as a feasible peripheral marker of GM-IVH-induced damage, recovered after EPO treatment. Altogether, our data support the positive effect of EPO treatment in our preclinical model of GM-IVH, both in the short and the long term.

A new method for chemoselective conjugation of unprotected peptides to dauno- and doxorubicin

A new approach for chemoselective ligation of peptides to dauno- and doxorubicin through an oxime bond is presented. The method does not require protecting groups on the peptide moiety.

Histological and histochemical investigations of achondroplastic mice: a possible model of human achondroplasia

Histological and histochemical investigations of tibial epiphyses, costo-chondral junctions and caudal vertebrae of achondroplastic (cn) mice have shown that, in spite of conspicuous reduction of bone length, endochondrial ossification occurs in much the same way as in controls. Moreover, the histological structure of seriated cartilage, and the distribution of proteoglycans in resting cartilage are the same in cn/cn mice and in controls. The only difference betweeen the two types of animals is represented by the occurence of early aging-like changes of chondrocytes and cartilage matrix in achondroplastic mice, leading to premature shortening of the cell columns and to early reduction of the proteoglycan concentration. The premature "aging" of the cartilage, the consequent inhibition of the calcification process and bone growth, and the normal rate of perichondral ossification give to long bones, vertebrae and ribs a typical achondroplastic appearance. The cn/cn mice seem to represent a useful model for studying the pathogenesis and therapy of human achondroplasia.