We have developed a new class of two-photon absorbing dyes that are far-red emitting, water-soluble, and very bright inside cells as well as in tissue. The significant autofluorescence from yellow wavelength region in tissue imaging can be addressed by deep-red emitting dyes.
Fluorescence imaging of tissues offer an essential means for studying biological systems. Autofluorescence becomes a serious issue in tissue imaging under excitation at UV-vis wavelengths where biological molecules compete with the fluorophore. To address this critical issue, a novel class of fluorophores that can be excited at ∼900 nm under two-photon excitation conditions and emits in the red wavelength region (≥600 nm) has been disclosed. The new π-extended dipolar dye system shows several advantageous features including minimal autofluorescence in tissue imaging and pronounced solvent-sensitive emission behavior, compared with a widely used two-photon absorbing dye, acedan. As an important application of the new dye system, one of the dyes was developed into a fluorescent probe for amyloid-β plaques, a key biomarker of Alzheimer's disease. The probe enabled in vivo imaging of amyloid-β plaques in a disease-model mouse, with negligible background signal. The new dye system has great potential for the development of other types of two-photon fluorescent probes and tags for imaging of tissues with minimal autofluorescence.
SUMMARY
Mitochondrial respiration is tightly regulated in CD8 T cells during the
transition from naïve to effector and memory cells, but the mechanisms that
control this process have not been defined. Here we show that MCJ/DnaJC15 acts as an
endogenous break for mitochondrial respiration in CD8 T cells by interfering with the
formation of electron transport chain (ETC) respiratory supercomplexes. Metabolic
profiling reveals an enhanced mitochondrial metabolism in MCJ-deficient CD8 cells.
Increased oxidative phosphorylation and subcellular ATP accumulation caused by the loss of
MCJ selectively increase the secretion, but not the expression, of IFNγ. MCJ also
serves to adapt effector CD8 T cell metabolism during the contraction phase. Consequently,
memory CD8 cells lacking MCJ are superior in providing protection against influenza virus
infection. Thus, MCJ offers a novel mechanism for fine-tuning mitochondrial metabolism in
CD8 cells, as an alternative to modulating mitochondrial mass, which is an energetically
expensive process. MCJ could be a new therapeutic target to enhance CD8 cell
responses.
Vesicles exchange their contents through membrane fusion processes, kiss-and-run and full-collapse fusion. Indirect observation of these fusion processes using artificial vesicles enhanced our understanding on the molecular mechanisms involved. Direct observation of the fusion processes in a real biological system, however, remains a challenge owing to many technical obstacles. We report a ratiometric two-photon probe offering real-time tracking of lysosomal ATP with quantitative information for the first time. By applying the probe to two-photon live-cell imaging, the lysosomal membrane fusion process in cells has been directly observed and the concentration of its content, lysosomal ATP, has been measured. Results show that the kiss-and-run process between lysosomes proceeds through repeated transient interactions with gradual content mixing, whereas the full-fusion process occurs at once. Furthermore, it is confirmed that both the fusion processes proceed with conservation of the content. Such a small-molecule probe exerts minimal disturbance and hence has potential for studying various biological processes associated with lysosomal ATP.
Alzheimer’s
disease (AD) is the most common form of dementia.
The pathogenesis of the disease is associated with aggregated amyloid-β,
hyperphosphorylated tau, a high level of metal ions, abnormal enzyme
activities, and reactive astrocytes. This outlook gives an overview
of fluorescent small molecules targeting AD biomarkers for ex vivo
and in vivo imaging. These chemical imaging probes are categorized
based on the potential biomarkers, and their pros and cons are discussed.
Guidelines for designing new sensing strategies as well as the desirable
properties to be pursued for AD fluorescence imaging are also provided.
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