Acetylcholinesterase (AChE) is a significant enzyme, which plays critical roles in numerous physiological and pathological processes. Thus, selective, and sensitive real-time imaging of AChE activity in vivo has great importance...
Hydrogen sulfide (H2S) is one of the critical
gasotransmitters,
which play important roles in regular physiological processes, especially
in vital signaling pathways. However, fluctuations in endogenous H2S concentration can be linked to serious health problems,
such as neurodegenerative diseases, cancer, diabetes, inflammation,
cardiovascular diseases, and hypertension. Thus, it has attracted
a great deal of attention in therapeutic applications, specifically
in the field of phototherapy. Photodynamic therapy (PDT) and photothermal
therapy (PTT) are two subclasses of phototherapy, which utilize either
reactive oxygen species (ROS) or local temperature increase upon irradiation
of a photosensitizer (PS) to realize the therapeutic action. Phototherapies
offer unique advantages compared to conventional methods; thus, they
are highly promising and popular. One of the design principles followed
in new generation PSs is to build activity-based PSs, which stay inactive
before getting activated by disease-associated stimuli. These activatable
PSs dramatically improve the selectivity and efficacy of the therapy.
In this review, we summarize small molecule and nanomaterial-based
PDT and PTT agents that are activated selectively by H2S to initiate their cytotoxic effect. We incorporate single mode
PDT and PTT agents along with synergistic and/or multimodal photosensitizers
that can combine more than one therapeutic approach. Additionally,
H2S-responsive theranostic agents, which offer therapy
and imaging at the same time, are highlighted. Design approaches,
working principles, and biological applications for each example are
discussed in detail.
Hydrogen sulfide (H2S) as a critical messenger molecule plays vital roles in regular cell function. However, abnormal levels of H2S, especially mitochondrial H2S, is directly correlated with the formation of...
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