Fate and propagation of endogenously formed Tau aggregates in neuronal cells.

Tau accumulation in the form of neurofibrillary tangles in the brain is a hallmark of tauopathies such as Alzheimer's disease (AD). Tau aggregates accumulate in brain regions in a defined spatiotemporal pattern and may induce the aggregation of native Tau in a prion-like manner. However, the underlying mechanisms of cell-to-cell spreading of Tau pathology are unknown and could involve encapsulation within exosomes, trans-synaptic passage, and tunneling nanotubes (TNTs).

Purine and sugar chemistry on solid phase--100 years after the Emil Fischer's Chemistry Nobel Prize 1902.

The Nobel Prize in Chemistry 1902 was given to Hermann Emil Fischer "in recognition of the extraordinary services he had rendered by his work on sugar and purine synthesis". This truly great chemist of all time named a group of bicyclic nitrogenous structures as purines, discovered the synthesis of glucose, fructose and mannose starting from glycerol, and further created the basis for glucoside-, amino acid-, and enzyme chemistry. To honour his discoveries, and to celebrate the 100 year since his Nobel Prize, we decided to write a short review article on the latest discoveries in the fields of purine/pyrimidine and sugar chemistry being performed on solid support.

Vilsmeier formylation of 2-carboxyindoles and preparation of O-benzylhydroxyureas on solid phase.

The Vilsmeier formylation has been introduced for the solid-phase functionalization of five different 2-carboxyindoles. The aldehyde functionality has been utilized in the preparation of O-benzylhydroxyureas.

Solid-phase bromination and Suzuki coupling of 2-carboxyindoles.

As part of an ongoing lead discovery project we have developed a convenient method for the modification and substitution of indole moieties at the 3-position. Selective bromination of three different 2-carboxyindoles was followed by Suzuki cross-coupling with aryl and heteroaryl boronic acids on a Merrifield resin solid-phase. After column chromatography, yields of the 3- substituted indoles ranged from 42-98%.

Effect of nitro groups and alkyl chain length on the negative ion tandem mass spectra of alkyl 3-hydroxy-5-(4'-nitrophenoxy) and alkyl 3-hydroxy-5-(2', 4'-dinitrophenoxy) benzoates.

Tandem mass spectrometric behaviour was studied for a small combinatorial library of alkyl 3-hydroxy-5-(4'-nitrophenoxy) benzoates (A1-A5) and alkyl 3-hydroxy-5-(2', 4'-dinitrophenoxy) benzoates (B1-B5). The spectra were recorded by negative ion electrospray low-energy collision induced dissociation (CID) tandem mass spectrometry. The product ion spectra of [M - H](-) of the benzoates A1-A5 are similar, as are those of benzoates B1-B5.