Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:3.1.4.1 (
phosphodiesterase
)
18,767
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Mutations affecting ciliary components cause a series of related genetic disorders in humans, including nephronophthisis (NPHP), Joubert syndrome (JBTS), Meckel-Gruber syndrome (MKS), and Bardet-Biedl syndrome (BBS), which are collectively termed "ciliopathies." Recent protein-protein interaction studies combined with genetic analyses revealed that ciliopathy-related proteins form several functional networks/modules that build and maintain the primary cilium. However, the precise function of many ciliopathy-related proteins and the mechanisms by which these proteins are targeted to primary cilia are still not well understood. Here, we describe a protein-protein interaction network of inositol polyphosphate-5-phosphatase E (INPP5E), a prenylated protein associated with JBTS, and its ciliary targeting mechanisms. INPP5E is targeted to the primary cilium through a motif near the C terminus and prenyl-binding protein
phosphodiesterase
6D (PDE6D)-dependent mechanisms. Ciliary targeting of INPP5E is facilitated by another JBTS protein,
ADP-ribosylation factor-like 13B
(
ARL13B
), but not by ARL2 or ARL3.
ARL13B
missense mutations that cause JBTS in humans disrupt the
ARL13B
-INPP5E interaction. We further demonstrate interactions of INPP5E with several ciliary and centrosomal proteins, including a recently identified ciliopathy protein centrosomal protein 164 (CEP164). These findings indicate that
ARL13B
, INPP5E, PDE6D, and CEP164 form a distinct functional network that is involved in JBTS and NPHP but independent of the ones previously defined by NPHP and MKS proteins.
...
PMID:ARL13B, PDE6D, and CEP164 form a functional network for INPP5E ciliary targeting. 2315 May 59
Mutations in the Joubert syndrome-associated small GTPase
ARL13B
are linked to photoreceptor impairment and vision loss. To determine the role of
ARL13B
in the development, function, and maintenance of ciliated photoreceptors, we generated a pan-retina knock-out (
Six3
-Cre) and a rod photoreceptor-specific inducible conditional knock-out (
Pde6g
-Cre
ERT2
) of
ARL13B
using murine models. Embryonic deletion of
ARL13B
led to defects in retinal development with reduced cell proliferation. In the absence of
ARL13B
, photoreceptors failed to develop outer segment (OS) membranous discs and axonemes, resulting in loss of function and rapid degeneration. Additionally, the majority of photoreceptor basal bodies did not dock properly at the apical edge of the inner segments. The removal of
ARL13B
in adult rod photoreceptor cells after maturation of OS resulted in loss of photoresponse and vesiculation in the OS. Before changes in photoresponse, removal of
ARL13B
led to mislocalization of rhodopsin, prenylated
phosphodiesterase
-6 (PDE6), and intraflagellar transport protein-88 (IFT88). Our findings show that
ARL13B
is required at multiple stages of retinogenesis, including early postnatal proliferation of retinal progenitor cells, development of photoreceptor cilia, and morphogenesis of photoreceptor OS discs regardless of sex. Last, our results establish a need for
ARL13B
in photoreceptor maintenance and protein trafficking.
SIGNIFICANCE STATEMENT
The normal development of photoreceptor cilia is essential to create functional, organized outer segments with stacked membrane discs that house the phototransduction proteins necessary for sight. Our study identifies a complex role for
ARL13B
, a small GTPase linked to Joubert syndrome and visual impairment, at various stages of photoreceptor development. Loss of
ARL13B
led to defects in retinal proliferation, altered placement of basal bodies crucial for components of the cilium (transition zone) to emanate, and absence of photoreceptor-stacked discs. These defects led to extinguished visual response and dysregulated protein trafficking. Our findings show the complex role
ARL13B
plays in photoreceptor development, viability, and function. Our study accounts for the severe retinal impairment observed in
ARL13B
-linked Joubert syndrome patients.
...
PMID:ARL13B, a Joubert Syndrome-Associated Protein, Is Critical for Retinogenesis and Elaboration of Mouse Photoreceptor Outer Segments. 3057 47
