In recent years, many members of the FK506-binding protein (FKBP) family were increasingly linked to various diseases. The binding domain of FKBPs differs only in a few amino acid residues, but their biological roles are versatile. High-affinity ligands with selectivity between close homologs are scarce. This review will give an overview of the most prominent ligands developed for FKBPs and highlight a perspective for future developments. More precisely, human FKBPs and correlated diseases will be discussed as well as microbial FKBPs in the context of anti-bacterial and anti-fungal therapeutics. The last section gives insights into high-affinity ligands as chemical tools and dimerizers.
BackgroundChronic alcohol exposure can alter glucocorticoid receptor (GR) function in some brain areas that promotes escalated and compulsive‐like alcohol intake. GR antagonism can prevent dependence‐induced escalation in drinking, but very little is known about the role of GR in regulating high‐risk nondependent alcohol intake. Here, we investigate the role of GR in regulating binge‐like drinking and aversive responses to alcohol in the High Drinking in the Dark (HDID‐1) mice, which have been selectively bred for high blood ethanol (EtOH) concentrations (BECs) in the Drinking in the Dark (DID) test, and in their founder line, the HS/NPT.MethodsIn separate experiments, male and female HDID‐1 mice were administered one of several compounds that inhibited GR or its negative regulator, FKBP51 (mifepristone [12.5, 25, 50, 100 mg/kg], CORT113176 [20, 40, 80 mg/kg], and SAFit2 [10, 20, 40 mg/kg]) during a 2‐day DID task. EtOH consumption and BECs were measured. EtOH conditioned taste and place aversion (CTA and CPA, respectively) were measured in separate HDID‐1 mice after mifepristone administration to assess GR’s role in regulating the conditioned aversive effects of EtOH. Lastly, HS/NPT mice were administered CORT113176 during DID to assess whether dissimilar effects from those of HDID‐1 would be observed, which could suggest that selective breeding had altered sensitivity to the effects of GR antagonism on binge‐like drinking.ResultsGR antagonism (with both mifepristone and CORT113176) selectively reduced binge‐like EtOH intake and BECs in the HDID‐1 mice, while inhibition of FKBP51 did not alter intake or BECs. In contrast, GR antagonism had no effect on EtOH intake or BECs in the HS/NPT mice. Although HDID‐1 mice exhibit attenuated EtOH CTA, mifepristone administration did not enhance the aversive effects of EtOH in either a CTA or CPA task.ConclusionThese data suggest that the selection process increased sensitivity to GR antagonism on EtOH intake in the HDID‐1 mice, and support a role for the GR as a genetic risk factor for high‐risk alcohol intake.
The FK506-binding
protein 51 (FKBP51) emerged as a key player in
several diseases like stress-related disorders, chronic pain, and
obesity. Linear analogues of FK506 called SAFit were shown to be highly
selective for FKBP51 over its closest homologue FKBP52, allowing the
proof-of-concept studies in animal models. Here, we designed and synthesized
the first macrocyclic FKBP51-selective ligands to stabilize the active
conformation. All macrocycles retained full FKBP51 affinity and selectivity
over FKBP52 and the incorporation of polar functionalities further
enhanced affinity. Six high-resolution crystal structures of macrocyclic
inhibitors in complex with FKBP51 confirmed the desired selectivity-enabling
binding mode. Our results show that macrocyclization is a viable strategy
to target the shallow FKBP51 binding site selectively.
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