Katy Barwick’s research while affiliated with Great Ormond Street Hospital for Children NHS Foundation Trust and other places

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Publications (31)


A humanized neuronal model system reveals key roles for manganese in neuronal endocytosis, calcium flux and mitochondrial bioenergetics
  • Preprint

November 2024

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20 Reads

Dimitri Budinger

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Sharmin Alhaque

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[...]

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Manganese (Mn) is an essential trace metal that is necessary for life. Its duality as both a crucial micronutrient and potential neurotoxicant necessitates tight control of intracellular and extracellular Mn levels. Dysregulation of Mn is implicated in a broad range of human diseases, from neurodevelopmental sequelae related to Mn levels in drinking water, to acquired forms of manganism, rare inherited Mn transportopathies and more common disorders such as Parkinson’s and Alzheimer’s disease. Despite the clear association between Mn dysregulation and neurodevelopmental or neurodegenerative diseases, the underlying cellular mechanisms that govern neuropathology remain poorly understood. We established an induced pluripotent stem cells-derived midbrain neuronal system from SLC39A14, SLC39A8, and SLC30A10 patients to better understand the neuronal sequelae of Mn dysregulation. By integrating transcriptomic and functional approaches, we show that Mn dyshomeostasis leads to dysregulation of key cellular pathways that are crucial to normal neuronal function, including defects in mitochondrial bioenergetics, calcium signalling, endocytosis, and glycosylation, as well as cellular stress and early neurodegeneration. Our humanized model has enhanced understanding of the role of Mn in the human brain, and the consequences of both acquired and genetic disorders associated with Mn dysregulation. Better understanding of these underlying pathophysiological processes will identify potential targets for future therapeutic intervention.


Cardiac glycosides restore autophagy flux in an iPSC-derived neuronal model of WDR45 deficiency

September 2024

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30 Reads

Beta-Propeller Protein-Associated Neurodegeneration (BPAN) is one of the commonest forms of Neurodegeneration with Brain Iron Accumulation, caused by mutations in the gene encoding the autophagy-related protein, WDR45. The mechanisms linking autophagy, iron overload and neurodegeneration in BPAN are poorly understood and, as a result, there are currently no disease-modifying treatments for this progressive disorder. We have developed a patient-derived, induced pluripotent stem cell (iPSC)-based midbrain dopaminergic neuronal cell model of BPAN (3 patient, 2 age-matched controls and 2 isogenic control lines) which shows defective autophagy and aberrant gene expression in key neurodegenerative, neurodevelopmental and collagen pathways. A high content imaging-based medium-throughput blinded drug screen using the FDA-approved Prestwick library identified 5 cardiac glycosides that both corrected disease-related defective autophagosome formation and restored BPAN-specific gene expression profiles. Our findings have clear translational potential and emphasise the utility of iPSC-based modelling in elucidating disease pathophysiology and identifying targeted therapeutics for early-onset monogenic disorders.


Correction: Expanded phenotypic spectrum of neurodevelopmental and neurodegenerative disorder Bryant-Li-Bhoj syndrome with 38 additional individuals
  • Article
  • Full-text available

July 2024

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83 Reads

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2 Citations

European Journal of Human Genetics

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Fig. 1 BLBS genotype and phenotype overview. A 2D diagram of the genes that encode the histone H3.3 protein -H3-3A (top -ENST00000366815) and H3-3B (bottom -ENST00000254810). Green brackets and thicker boxes represent the coding sequence. Arrows represent the transcription start sites. B 2D diagram of histone H3.3 protein (green), including the location of the four alpha helices. Lollipops show the H3-3A derived (top) and the H3-3B derived (bottom) heterozygous germline variants. Length of lollipop corresponds to number of individuals who harbor a variant at that residue (e.g. H3-3A p.T45I represents four individuals with BLBS and H3-3A p.V46M represents one individual with BLBS). C 3D in silico structural model of the H3.3-containing nucleosome (PDB: 5X7X) with the two copies of H3.3 in green; other histones in gray; and DNA in black. The location of heterozygous germline variants in the crystallized histone core are highlighted in purple. D Circular boxplot visualizing BLBS phenotypes. Cyan = growth (height, weight and head circumference); blue = craniofacial anomalies; pink = abnormal neuroimaging findings and seizures; red = developmental milestones; yellow = tone anomalies and oculomotor features; green = review of systems.
Expanded phenotypic spectrum of neurodevelopmental and neurodegenerative disorder Bryant-Li-Bhoj syndrome with 38 additional individuals

April 2024

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156 Reads

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1 Citation

European Journal of Human Genetics

Bryant-Li-Bhoj syndrome (BLBS), which became OMIM-classified in 2022 (OMIM: 619720, 619721), is caused by germline variants in the two genes that encode histone H3.3 ( H3-3A / H3F3A and H3-3B / H3F3B ) [1–4]. This syndrome is characterized by developmental delay/intellectual disability, craniofacial anomalies, hyper/hypotonia, and abnormal neuroimaging [1, 5]. BLBS was initially categorized as a progressive neurodegenerative syndrome caused by de novo heterozygous variants in either H3-3A or H3-3B [1–4]. Here, we analyze the data of the 58 previously published individuals along 38 unpublished, unrelated individuals. In this larger cohort of 96 people, we identify causative missense, synonymous, and stop-loss variants. We also expand upon the phenotypic characterization by elaborating on the neurodevelopmental component of BLBS. Notably, phenotypic heterogeneity was present even amongst individuals harboring the same variant. To explore the complex phenotypic variation in this expanded cohort, the relationships between syndromic phenotypes with three variables of interest were interrogated: sex, gene containing the causative variant, and variant location in the H3.3 protein. While specific genotype-phenotype correlations have not been conclusively delineated, the results presented here suggest that the location of the variants within the H3.3 protein and the affected gene ( H3-3A or H3-3B) contribute more to the severity of distinct phenotypes than sex. Since these variables do not account for all BLBS phenotypic variability, these findings suggest that additional factors may play a role in modifying the phenotypes of affected individuals. Histones are poised at the interface of genetics and epigenetics, highlighting the potential role for gene-environment interactions and the importance of future research.


Cardiac glycosides restore autophagy flux in an iPSC-derived neuronal model of WDR45 deficiency

January 2024

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17 Reads

Beta-Propeller Protein-Associated Neurodegeneration (BPAN) is one of the commonest forms of Neurodegeneration with Brain Iron Accumulation, caused by mutations in the gene encoding the autophagy-related protein, WDR45. The mechanisms linking autophagy, iron overload and neurodegeneration in BPAN are poorly understood and, as a result, there are currently no disease-modifying treatments for this progressive disorder. We have developed a patient-derived, induced pluripotent stem cell (iPSC)-based midbrain dopaminergic neuronal cell model of BPAN (3 patient, 2 age-matched controls and 2 isogenic control lines) which shows defective autophagy and aberrant gene expression in key neurodegenerative, neurodevelopmental and collagen pathways. A high content imaging-based medium-throughput blinded drug screen using the FDA-approved Prestwick library identified 5 cardiac glycosides that both corrected disease-related defective autophagosome formation and restored BPAN-specific gene expression profiles. Our findings have clear translational potential and emphasise the utility of iPSC-based modelling in elucidating disease pathophysiology and identifying targeted therapeutics for early-onset monogenic disorders.


Cardiac glycosides restore autophagy flux in an iPSC-derived neuronal model of WDR45 deficiency

January 2024

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29 Reads

Beta-Propeller Protein-Associated Neurodegeneration (BPAN) is one of the commonest forms of Neurodegeneration with Brain Iron Accumulation, caused by mutations in the gene encoding the autophagy-related protein, WDR45. The mechanisms linking autophagy, iron overload and neurodegeneration in BPAN are poorly understood and, as a result, there are currently no disease-modifying treatments for this progressive disorder. We have developed a patient-derived, induced pluripotent stem cell (iPSC)-based midbrain dopaminergic neuronal cell model of BPAN (3 patient, 2 age-matched controls and 2 isogenic control lines) which shows defective autophagy and aberrant gene expression in key neurodegenerative, neurodevelopmental and collagen pathways. A high content imaging-based medium-throughput blinded drug screen using the FDA-approved Prestwick library identified 5 cardiac glycosides that both corrected disease-related defective autophagosome formation and restored BPAN-specific gene expression profiles. Our findings have clear translational potential and emphasise the utility of iPSC-based modelling in elucidating disease pathophysiology and identifying targeted therapeutics for early-onset monogenic disorders.


Neurodevelopmental and synaptic defects in DNAJC6 parkinsonism, amenable to gene therapy

January 2024

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109 Reads

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4 Citations

Brain

DNAJC6 encodes auxilin, a co-chaperone protein involved in clathrin-mediated endocytosis (CME) at the presynaptic terminal. Biallelic mutations in DNAJC6 cause a complex, early-onset neurodegenerative disorder characterized by rapidly progressive parkinsonism-dystonia in childhood. The disease is commonly associated with additional neurodevelopmental, neurological and neuropsychiatric features. Currently, there are no disease-modifying treatments for this condition, resulting in significant morbidity and risk of premature mortality. To investigate the underlying disease mechanisms in childhood-onset DNAJC6 parkinsonism, we generated induced pluripotent stem cells (iPSC) from three patients harboring pathogenic loss-of-function DNAJC6 mutations and subsequently developed a midbrain dopaminergic (mDA) neuronal model of disease. When compared to age-matched and CRISPR-corrected isogenic controls, the neuronal cell model revealed disease-specific auxilin deficiency as well as disturbance of synaptic vesicle (SV) recycling and homeostasis. We also observed neurodevelopmental dysregulation affecting ventral midbrain patterning and neuronal maturation. In order to explore the feasibility of a viral vector-mediated gene therapy approach, iPSC-derived neuronal cultures were treated with lentiviral DNAJC6 gene transfer, which restored auxilin expression and rescued CME. Our patient-derived neuronal model provides deeper insights into the molecular mechanisms of auxilin deficiency as well as a robust platform for the development of targeted precision therapy approaches.


Cardiac glycosides restore autophagy flux in an iPSC-derived neuronal model of WDR45 deficiency

September 2023

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63 Reads

Beta-Propeller Protein-Associated Neurodegeneration (BPAN) is one of the commonest forms of Neurodegeneration with Brain Iron Accumulation, caused by mutations in the gene encoding the autophagy-related protein, WDR45. The mechanisms linking autophagy, iron overload and neurodegeneration in BPAN are poorly understood and, as a result, there are currently no disease-modifying treatments for this progressive disorder. We have developed a patient-derived, induced pluripotent stem cell (iPSC)-based midbrain dopaminergic neuronal cell model of BPAN (3 patient, 2 age-matched controls and 2 isogenic control lines) which shows defective autophagy and aberrant gene expression in key neurodegenerative, neurodevelopmental and collagen pathways. A high content imaging-based medium-throughput blinded drug screen using the FDA-approved Prestwick library identified 5 cardiac glycosides that both corrected disease-related defective autophagosome formation and restored BPAN-specific gene expression profiles. Our findings have clear translational potential and emphasise the utility of iPSC-based modelling in elucidating disease pathophysiology and identifying targeted therapeutics for early-onset monogenic disorders.


Clinical Phenotype in Individuals With Birk-Landau-Perez Syndrome Associated With Biallelic SLC30A9 Pathogenic Variants

April 2023

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84 Reads

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1 Citation

Neurology

Objective: Birk-Landau-Perez syndrome is a genetic disorder caused by biallelic pathogenic variants in SLC30A9 presenting with a complex movement disorder, developmental regression, oculomotor abnormalities and renal impairment. So far it has been reported in only two families. We describe the clinical phenotype of eight further individuals from four unrelated families with SLC30A9-related disease. Method: Following detailed clinical phenotyping, one family underwent research whole-genome sequencing (WGS), one research whole-exome sequencing (WES) and two diagnostic WGS. Variants of interest were assessed for pathogenicity using in silico prediction tools, homology modelling and where relevant, sequencing of cDNA for splicing impact. Results: In two unrelated families of Pakistani origin (one consanguineous, one not), the same homozygous missense variant in SLC30A9 (c.1253G>T, p.Gly418Val) was identified. Family 1 included two affected brothers, and Family 2 one affected boy. In Family 3, also consanguineous, there were four affected siblings homozygous for the variant c.1049delCAG, pAla350del. The fourth family was non-consanguineous: the one affected individual was compound heterozygous for c.1083dup, p.Val362Cysfs*5 and c.1413A>G, p.Ser471=. Despite phenotypic variability between the four families, all affected patients manifested with a progressive hyperkinetic movement disorder, associated with oculomotor apraxia and ptosis. None had evidence of severe renal impairment. For the novel missense variant, the conformation of the loop domain and packing of transmembrane helices are likely to be disrupted based on structure modelling. Its presence in two unrelated Pakistani families suggests a possible founder variant. For the synonymous variant p.Ser471=, an impact on splicing was confirmed through cDNA analysis. Discussion: Pathogenic variants in SLC30A9 cause a progressive autosomal recessive neurological syndrome associated with a complex hyperkinetic movement disorder. Our report highlights the expanding disease phenotype, which can present with a wider spectrum of severity than has previously been recognised.


Figure 1. Schematic representation of direct and indirect pathways of the basal ganglia. Lef direct and indirect pathways regulate voluntary movement and form a key part of the cortico ganglia-thalamic network. The striatum receives inputs including dopaminergic fibres fro substantia nigra, as well as GABAergic (inhibitory) inputs from the globus pallidus pars e and glutamatergic (excitatory) inputs from the cortex, thalamus and subthalamic nucleus. In it provides inhibitory output via GABergic medium spiny neurons (MSNs) to the globus pa pars interna and externa and the substantia nigra. The balance of these outputs determines t ative activity of the direct (prokinetic) and indirect (antikinetic) pathways by modulating tha excitatory output to the motor cortex. Right: Dopamine in the striatum has opposite effects de ing on whether the postsynaptic MSN expresses D1 or D2 receptors, exciting the former-whic tribute to the direct pathway-and inhibiting the latter-which contribute to the indirect path
Figure 4. Cont.
Figure 4. Effect of T37K variant on cAMP production and ligand binding. (A) HEK-293T cells transfected with either DRD1-WT or DRD1-T37K were treated with increasing concentrations of Chloro APB for 10 min and cAMP levels recorded. Graph displays the mean inverted luminescence +/− SEM (n = 6). ns = not significant, * p < 0.05, ** p < 0.01, *** p < 0.005, **** p < 0.001 (2-way ANOVA between DRD1-WT and DRD1-T37K). (B-G) Structures of DRD1 wildtype and modelled T37K mutant proteins. The side view of the DRD1 proteins showing the angles between the helices TM1 and TM2 with the wildtype protein (PDB ID: 7JVP) in pink (B) and T37K mutant in blue (C). The orientation of T37 (D) and K37 (E) in the DRD1 wildtype (pink) and T37K mutant proteins (blue). The amino acids are represented in single letter codes and coloured by atom-type. Coulombic potential-based surface rendering of the wildtype (F) and the T37K mutant (G) proteins around the sites depicted in (C,D). Red, blue and white correspond to negative, positive and no charge on the residues, respectively. The graphical representation of the protein structures was created using the molecular graphics program Chimera (http://www.cgl.ucsf.edu/chimera/ accessed on 1 December 2022). (H) DA binding to either D 1 -WT or D 1 -T37K was investigated using increasing concentrations of ( 3 H) DA. Data are presented as the mean +/− SEM relative to untransfected treated cells (2-way ANOVA, n = 6, p < 0.05). (I-L) Transfected HEK-293T cells treated with clinically relevant D 1 agonists (I) pramipexole, (J) apomorphine, (K) rotigotine and (L) bromocriptine. Graph displays the mean inverted luminescence +/-SEM (n = 6). ns = not significant, * p < 0.05, ** p < 0.01, *** p < 0.005, **** p < 0.001 (2-way ANOVA between D 1 -WT and D 1 -T37K).
Loss-of-Function Variants in DRD1 in Infantile Parkinsonism-Dystonia

March 2023

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382 Reads

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1 Citation

Cells

The human dopaminergic system is vital for a broad range of neurological processes, including the control of voluntary movement. Here we report a proband presenting with clinical features of dopamine deficiency: severe infantile parkinsonism-dystonia, characterised by frequent oculogyric crises, dysautonomia and global neurodevelopmental impairment. CSF neurotransmitter analysis was unexpectedly normal. Triome whole-genome sequencing revealed a homozygous variant (c.110C>A, (p.T37K)) in DRD1, encoding the most abundant dopamine receptor (D1) in the central nervous system, most highly expressed in the striatum. This variant was absent from gnomAD, with a CADD score of 27.5. Using an in vitro heterologous expression system, we determined that DRD1-T37K results in loss of protein function. Structure-function modelling studies predicted reduced substrate binding, which was confirmed in vitro. Exposure of mutant protein to the selective D1 agonist Chloro APB resulted in significantly reduced cyclic AMP levels. Numerous D1 agonists failed to rescue the cellular defect, reflected clinically in the patient, who had no benefit from dopaminergic therapy. Our study identifies DRD1 as a new disease-associated gene, suggesting a crucial role for the D1 receptor in motor control.


Citations (21)


... A prenatal onset of COQ7 disorder was ameliorated by early treatment with COQ10. Layo-Carris and colleagues provide an expansion on the phenotype associated with H3.3 (histone) variants, presenting evidence of possible genotype-phenotype correlations [12]. Noonan syndrome has multiple different genetic associations. ...

Reference:

Summer reading in EJHG
Expanded phenotypic spectrum of neurodevelopmental and neurodegenerative disorder Bryant-Li-Bhoj syndrome with 38 additional individuals

European Journal of Human Genetics

... Two previously characterised agematched control iPSC lines were utilised for this study. 35,36,38 All iPSC lines retained structural genomic integrity as indicated by single nucleotide polymorphism (SNP) analysis and were confirmed to be pluripotent ( Figure S1A-C, Figure S1E and S1F). ...

Neurodevelopmental and synaptic defects in DNAJC6 parkinsonism, amenable to gene therapy

Brain

... The clinical features of this disease are intellectual disability, dystonia, movement disorder, oculomotor apraxia, and renal abnormality. More cases of the disease were found recently [21][22][23]. Although the genetic basis of this disease is revealed, its etiology is not clarified, and further investigations are needed. ...

Clinical Phenotype in Individuals With Birk-Landau-Perez Syndrome Associated With Biallelic SLC30A9 Pathogenic Variants

Neurology

... [5][6][7][8][9][10] Correspondingly, pathogenic variants in genes critical for postsynaptic dopamine receptor signal transduction are associated with dystonia. [11][12][13][14][15] Even without overt gene defects, disruptions in dopamine neurotransmission can cause dystonia, such as tardive dystonia following dopamine receptor antagonist treatment. 16 Compelling evidence for the role of dopamine dysfunction in dystonia is DOPA-responsive dystonia (DRD), a group of childhood-onset dystonias that markedly improve after administration of L-DOPA, the synthetic precursor of dopamine. ...

Loss-of-Function Variants in DRD1 in Infantile Parkinsonism-Dystonia

Cells

... This suggests incomplete penetrance in PxMD-KCNJ10, similarly to other PKD genetic causes. 4 The coexistence of autosomal dominant and recessive inheritance has been reported in other inherited movement disorders including PxMD-JPH3, 17 ATX-STUB1, 18 and HSP/ATX-SPG7. 19 Deep phenotyping demonstrated that most carriers of KCNJ10 variants had mild and incomplete features of EAST syndrome, including hypocalciuria or salt wasting evocative of tubulopathy, subtle oculomotor abnormalities suggestive of cerebellar dysfunction with or without cerebellar abnormalities on MRI, and even in one case sensorineural hearing loss. ...

Both Heterozygous and Homozygous Loss‐of‐Function JPH3 Variants Are Associated with a Paroxysmal Movement Disorder

Movement Disorders

... Individuals with DYT-KMT2B typically have childhood-onset dystonia, often with secondary generalization affecting gait, upper limbs, neck, and oropharyngeal regions. Occasionally, affected individuals may present with myoclonus, facial dysmorphisms, early onset puberty, and variable degrees of intellectual disability and/or neuropsychiatric findings [1][2][3][4]. Imaging may demonstrate a hypointense streak in the lateral globus pallidus externa, more visible on susceptibilityweighted sequences [2]. In some series, KMT2B is the most frequently implicated gene in childhood-onset dystonia [5]. ...

KMT2B-related disorders: expansion of the phenotypic spectrum and long-term efficacy of deep brain stimulation

... They can be often recognized by specific clues from clinical features. Eye movement disorders, sudden-onset dystonia with rapid progression, cranial-onset dystonia in childhood, prominent oromandibular dystonia, and hemi-dystonia can be pertinent clues to a secondary process [16,17]. ...

The Genetic Landscape of Complex Childhood‐Onset Hyperkinetic Movement Disorders

Movement Disorders

... [4]. Meanwhile, homozygous variants of c.839C>T were also detected in another two individuals from one family presented with complex neurodevelopmental disorder with severe dystonia, although they also carried homozygous variants in SLC6A7 and MPPE1 [16]. However, no replication study from large cohort has been conducted to confirm the role of MED27 in dystonia. ...

MED27 , SLC6A7, and MPPE1 Variants in a Complex Neurodevelopmental Disorder with Severe Dystonia

Movement Disorders

... Such pathways include serotonergic 161 and glutamatergic synapses 162 , and synaptic vesicle recycling and retrograde endocannabinoid signaling 163 . In addition, transcripts of genes with known neurobiological effects, such Gdf15 164 , Atp1a3 165 , and Mdga2 166 were modulated. ...

The Phenotypic Continuum of ATP1A3 -Related Disorders

Neurology

... The number of patients described as having autism or autistic-like features varies, with a range of 19-42% being reported in the literature [19,[21][22][23]. Behavioral or psychiatric problems have also been reported, with a smaller subset of patients reported as having aggressive behaviors, hyperactivity, and awake bruxism [21][22][23][24][25]. A detailed neurodevelopmental assessment of 14 patients with STXBP1-related disorders noted that compared to other patients with ID, they often had more severe adaptive impairments, fine motor difficulties, and hyperactivity and often had worse receptive language and social impairments compared to more severe ID patients [26]. ...

STXBP1 Stop-Loss Mutation Associated with Complex Early Onset Movement Disorder without Epilepsy

Movement Disorders Clinical Practice