2014
DOI: 10.1016/j.jbior.2013.09.015
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Disentangling biological signaling networks by dynamic coupling of signaling lipids to modifying enzymes

Abstract: An unresolved problem in biological signal transduction is how particular branches of highly interconnected signaling networks can be decoupled, allowing activation of specific circuits within complex signaling architectures. Although signaling dynamics and spatiotemporal mechanisms serve critical roles, it remains unclear if these are the only ways cells achieve specificity within networks. The transcription factor Steroidogenic Factor-1 (SF-1) is an excellent model to address this question, as it forms dynam… Show more

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Cited by 23 publications
(27 citation statements)
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“…5C). The inositol lipid kinase IPMK, previously shown to phosphorylate PIP 2 bound to SF-1, can also be docked onto the SF-1/PIP 2 structure without significant steric interference (32). The functional significance of the opposing or "flipped" orientations of the PIP 2 and PIP 3 head groups in the SF-1 LBD structures presented here remains unclear.…”
Section: Discussionmentioning
confidence: 81%
“…5C). The inositol lipid kinase IPMK, previously shown to phosphorylate PIP 2 bound to SF-1, can also be docked onto the SF-1/PIP 2 structure without significant steric interference (32). The functional significance of the opposing or "flipped" orientations of the PIP 2 and PIP 3 head groups in the SF-1 LBD structures presented here remains unclear.…”
Section: Discussionmentioning
confidence: 81%
“…3 ). IP3 acts as a substrate for inositol polyphosphate multikinase (IPMK), which is located in the nucleus and gives rise to higher inositol phosphates ( 24 ).…”
Section: Function and Regulationmentioning
confidence: 99%
“…In fact, many members of the nuclear receptor superfamily have been identified as being translated on membrane-bound ribosomes (Reid and Nicchitta, 2015). One hypothesis explaining this phenomenon is that membrane-translated proteins are co-translationally sensing the ER lipid content by acquiring lipids from the ER as the proteins fold in close proximity to this membrane system (Blind, 2014). PLTPs such as Sec14 (Figure 3C) and TIPE3 (Figure 3) are localized to ER membranes, and could facilitate this process through the same poorly understood mechanisms they use to assist in the movement of phospholipids into lipoprotein particles in the cytoplasm.…”
Section: Exogenous Natural Phospholipidsmentioning
confidence: 99%
“…This discovery represents a new way that small signaling molecules can alter receptor function - small molecules statically associated with an effector can be metabolized/altered while bound to the protein, altering effector function. We posit that the direct modification of second messenger small signaling molecules bound to intracellular receptors will prove to be a general signaling paradigm, particularly in the regulation of nuclear protein/small molecule complexes (Blind, 2014). Importantly, this mechanism is capable of decoupling second messenger-bound downstream effectors from the activation of particular upstream signaling pathways.…”
Section: Exogenous Natural Phospholipidsmentioning
confidence: 99%
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