A novel p.(Glu111Val) missense mutation in GUCA1A associated with cone-rod dystrophy leads to impaired calcium sensing and perturbed second messenger homeostasis in photoreceptors

Marino, Valerio; Cortivo, Giuditta Dal; Oppici, Elisa; Maltese, Paolo Enrico; D’Esposito, Fabiana; Manara, Elena; Ziccardi, Lucia; Falsini, Benedetto; Magli, Adriano; Bertelli, Matteo; Dell’Orco, Daniele

doi:10.1093/hmg/ddy311

Cited by 24 publications

(74 citation statements)

References 55 publications

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“…GCAP1, as well as other NCS operating in phototransduction, shows a typical mobility shift when the apo-form is compared with the Ca 2+ or Mg 2+ -loaded forms [24,35], therefore, we monitored the mobility of all GCAP1 variants characterized here in different Ca 2+ /Mg 2+ loading conditions. In line with previous findings [20,24], all variants displayed lower apparent molecular mass on sodium dodecyl-sulfate polyacrylamide electrophoresis (SDS-PAGE) upon Ca 2+ -binding ( Figure S1), independent on the presence of Mg 2+ . The lower apparent molecular mass of the four GCAP1 variants in the presence of Ca 2+ suggested a similar Ca 2+ -affinity, since the decrease in Ca 2+ -affinity was previously correlated with a less pronounced electrophoretic shift [20].…”

Section: Mg 2+ /Ca 2+ Affinity Of Gcap1 G86r+w94f/lsupporting

confidence: 91%

“…In line with previous findings [20,24], all variants displayed lower apparent molecular mass on sodium dodecyl-sulfate polyacrylamide electrophoresis (SDS-PAGE) upon Ca 2+ -binding ( Figure S1), independent on the presence of Mg 2+ . The lower apparent molecular mass of the four GCAP1 variants in the presence of Ca 2+ suggested a similar Ca 2+ -affinity, since the decrease in Ca 2+ -affinity was previously correlated with a less pronounced electrophoretic shift [20].…”

Section: Mg 2+ /Ca 2+ Affinity Of Gcap1 G86r+w94f/lsupporting

confidence: 91%

“…Detailed biochemical and biophysical studies reported a similar common molecular mechanism of dysregulation among the majority of GCAP1 variants [20,[27][28][29][30][31][32], namely, a reduced Ca 2+ -affinity due to mutations in EF3 and EF4. On the other hand, some disease-associated mutations resulted in an unaltered Ca 2+ -sensitivity [24,33], suggesting that GC dysregulation may arise from higher affinity for Mg 2+ or from alterations in the long-range allosteric communication between the EF-hands and the target interface [10].…”

Section: Introductionmentioning

confidence: 90%

“…Mutations in GUCA1A, encoding for GCAP1 result in aberrant GC regulation and in retinal degeneration, a set of progressive diseases involving cones, the macula, and in some cases rods, ultimately leading to blindness [11][12][13]. To date, 20 GCAP1 variants have been associated with retinal dystrophy [14][15][16][17][18][19][20][21][22][23][24][25], with one of the most recently discovered being the G86R mutation, located in the previously mentioned hinge region [26]. Biochemical experiments performed with the GC-GCAP1 reconstituted system in the presence of the G86R mutation showed that the complex forms with higher affinity than the WT and it is unable to decelerate the GC at high Ca 2+ -levels corresponding to the dark-adapted state [26].…”

Section: Introductionmentioning

confidence: 99%

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Constitutive Activation of Guanylate Cyclase by the G86R GCAP1 Variant Is Due to “Locking” Cation-π Interactions that Impair the Activator-to-Inhibitor Structural Transition

Abbas

Marino

Bielefeld

et al. 2020

IJMS

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Guanylate Cyclase activating protein 1 (GCAP1) mediates the Ca2+-dependent regulation of the retinal Guanylate Cyclase (GC) in photoreceptors, acting as a target inhibitor at high [Ca2+] and as an activator at low [Ca2+]. Recently, a novel missense mutation (G86R) was found in GUCA1A, the gene encoding for GCAP1, in patients diagnosed with cone-rod dystrophy. The G86R substitution was found to affect the flexibility of the hinge region connecting the N- and C-domains of GCAP1, resulting in decreased Ca2+-sensitivity and abnormally enhanced affinity for GC. Based on a structural model of GCAP1, here, we tested the hypothesis of a cation-π interaction between the positively charged R86 and the aromatic W94 as the main mechanism underlying the impaired activator-to-inhibitor conformational change. W94 was mutated to F or L, thus, resulting in the double mutants G86R+W94L/F. The double mutants showed minor structural and stability changes with respect to the single G86R mutant, as well as lower affinity for both Mg2+ and Ca2+, moreover, substitutions of W94 abolished “phase II” in Ca2+-titrations followed by intrinsic fluorescence. Interestingly, the presence of an aromatic residue in position 94 significantly increased the aggregation propensity of Ca2+-loaded GCAP1 variants. Finally, atomistic simulations of all GCAP1 variants in the presence of Ca2+ supported the presence of two cation-π interactions involving R86, which was found to act as a bridge between W94 and W21, thus, locking the hinge region in an activator-like conformation and resulting in the constitutive activation of the target under physiological conditions.

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Section: Mg 2+ /Ca 2+ Affinity Of Gcap1 G86r+w94f/lsupporting

confidence: 91%

Section: Mg 2+ /Ca 2+ Affinity Of Gcap1 G86r+w94f/lsupporting

confidence: 91%

Section: Introductionmentioning

confidence: 90%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Constitutive Activation of Guanylate Cyclase by the G86R GCAP1 Variant Is Due to “Locking” Cation-π Interactions that Impair the Activator-to-Inhibitor Structural Transition

Abbas

Marino

Bielefeld

et al. 2020

IJMS

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“…Synthesis of cyclic GMP (cGMP) is an essential process in photoreceptor cells of the retina, as cGMP is the signaltransducing molecule in the light response 1,2 . Mutations in a number of genes that impair or alter cGMP synthesis in rods and cones have been associated to different forms of blindness [3][4][5][6][7][8][9][10][11][12] . Loss-of-function mutations in the RD3 gene (name from the natural strain of "retinal degeneration 3" mice, rd3 locus mutated) cause Leber's congenital amaurosis 12 (LCA12) 13,14 .…”

Section: Introductionmentioning

confidence: 99%

GCAP neuronal calcium sensor proteins mediate photoreceptor cell death in the rd3 mouse model of LCA12 congenital blindness by involving endoplasmic reticulum stress

et al. 2020

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Loss-of-function mutations in the retinal degeneration 3 (RD3) gene cause inherited retinopathy with impaired rod and cone function and fast retinal degeneration in patients and in the natural strain of rd3 mice. The underlying physiopathology mechanisms are not well understood. We previously proposed that guanylate cyclase-activating proteins (GCAPs) might be key Ca 2+ -sensors mediating the physiopathology of this disorder, based on the demonstrated toxicity of GCAP2 when blocked in its Ca 2+ -free form at photoreceptor inner segments. We here show that the retinal degeneration in rd3 mice is substantially delayed by GCAPs ablation. While the number of retinal photoreceptor cells is halved in 6 weeks in rd3 mice, it takes 8 months to halve in rd3/rd3 GCAPs −/− mice. Although this substantial morphological rescue does not correlate with recovery of visual function due to very diminished guanylate cyclase activity in rd3 mice, it is very informative of the mechanisms underlying photoreceptor cell death. By showing that GCAP2 is mostly in its Ca 2+ -free-phosphorylated state in rd3 mice, we infer that the [Ca 2+ ] i at rod inner segments is permanently low. GCAPs are therefore retained at the inner segment in their Ca 2+ -free, guanylate cyclase activator state. We show that in this conformational state GCAPs induce endoplasmic reticulum (ER) stress, mitochondrial swelling, and cell death. ER stress and mitochondrial swelling are early hallmarks of rd3 retinas preceding photoreceptor cell death, that are substantially rescued by GCAPs ablation. By revealing the involvement of GCAPs-induced ER stress in the physiopathology of Leber's congenital amaurosis 12 (LCA12), this work will aid to guide novel therapies to preserve retinal integrity in LCA12 patients to expand the window for gene therapy intervention to restore vision.

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Recombinant protein delivery enables modulation of the phototransduction cascade in mouse retina

Asteriti,

Marino,

Avesani

et al. 2023

Cell. Mol. Life Sci.

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Inherited retinal dystrophies are often associated with mutations in the genes involved in the phototransduction cascade in photoreceptors, a paradigmatic signaling pathway mediated by G protein-coupled receptors. Photoreceptor viability is strictly dependent on the levels of the second messengers cGMP and Ca2+. Here we explored the possibility of modulating the phototransduction cascade in mouse rods using direct or liposome-mediated administration of a recombinant protein crucial for regulating the interplay of the second messengers in photoreceptor outer segments. The effects of administration of the free and liposome-encapsulated human guanylate cyclase-activating protein 1 (GCAP1) were compared in biological systems of increasing complexity (in cyto, ex vivo, and in vivo). The analysis of protein biodistribution and the direct measurement of functional alteration in rod photoresponses show that the exogenous GCAP1 protein is fully incorporated into the mouse retina and photoreceptor outer segments. Furthermore, only in the presence of a point mutation associated with cone-rod dystrophy in humans p.(E111V), protein delivery induces a disease-like electrophysiological phenotype, consistent with constitutive activation of the retinal guanylate cyclase. Our study demonstrates that both direct and liposome-mediated protein delivery are powerful complementary tools for targeting signaling cascades in neuronal cells, which could be particularly important for the treatment of autosomal dominant genetic diseases.

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A novel p.(Glu111Val) missense mutation in GUCA1A associated with cone-rod dystrophy leads to impaired calcium sensing and perturbed second messenger homeostasis in photoreceptors

Cited by 24 publications

References 55 publications

Constitutive Activation of Guanylate Cyclase by the G86R GCAP1 Variant Is Due to “Locking” Cation-π Interactions that Impair the Activator-to-Inhibitor Structural Transition

Constitutive Activation of Guanylate Cyclase by the G86R GCAP1 Variant Is Due to “Locking” Cation-π Interactions that Impair the Activator-to-Inhibitor Structural Transition

GCAP neuronal calcium sensor proteins mediate photoreceptor cell death in the rd3 mouse model of LCA12 congenital blindness by involving endoplasmic reticulum stress

Recombinant protein delivery enables modulation of the phototransduction cascade in mouse retina

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