Biochemical characterization of a Caspase-3 far-red fluorescent probe for non-invasive optical imaging of neuronal apoptosis.

Apoptosis is a regulated process, leading to cell death, which is involved in several pathologies including neurodegenerative diseases and stroke. Caspase-3 is a key enzyme of the apoptotic pathway and is considered as a major target for the treatment of abnormal cell death. Sensitive and non-invasive methods to monitor caspase-3 activity in cells and in the brain of living animals are needed to test the efficiency of novel therapeutic strategies.

Cramer-Rao analysis of steady-state and time-domain fluorescence diffuse optical imaging.

Using a Cramer-Rao analysis, we study the theoretical performances of a time and spatially resolved fDOT imaging system for jointly estimating the position and the concentration of a point-wide fluorescent volume in a diffusive sample. We show that the fluorescence lifetime is a critical parameter for the precision of the technique. A time resolved fDOT system that does not use spatial information is also considered.

In vitro and ex vivo evaluation of smart infra-red fluorescent caspase-3 probes for molecular imaging of cardiovascular apoptosis.

Purpose. The aim of this paper is to develop new optical bioprobes for the imaging of apoptosis. Procedure.

A novel and unusually long-lived chemiluminophore based on the 7-hydroxycoumarin scaffold.

Synthesis and chemiluminescent properties of a new 1,2-dioxetane chemiluminophore bearing a 7-hydroxycoumarin moiety are presented. The 1,2-dioxetane decomposition ended up with strong and long-lived emission of light. This new structure opens way to the development of a new generation of bright chemiluminescent bio-probes.

Self-cleavable chemiluminescent probes suitable for protease sensing.

A new generation of dioxetane-based chemiluminescent substrates suitable for detecting protease activities is described. Our strategy involves the use of a self-cleavable spacer as the key molecular component of these protease-sensitive chemiluminescent probes. Among the assayed strategies, the PABA (para-aminobenzylic alcohol) linker associated with an ether linkage enables the release of the light-emitting phenolic 1,2-dioxetane moiety through an enzyme-initiated domino reaction.