8th International Wolfram Symposium Presentation Dr Christophe Orssaud – Functional Unit of Ophthalmology, Paris, France

8th International Wolfram Symposium Presentation Dr Christophe Orssaud – Functional Unit of Ophthalmology, Paris, France
Audiowolf : Description, contribution and interest of this protocol
Alongside the Treatwolfram protocol initiated by Pr T Barrett, a second new protocol has been initiated in France, called Audiowolf. These two protocols are similar in terms of their duration (3 years), the patients for whom they are intended (patients with Wolfram syndrome) and the molecule used (sodium valproate). They nevertheless differ by several points which make them complementary.
These differences relate first to the primary judgment criterion. This primary judgment criterion is auditory in Audiowolf and not visual. It is also a non-randomized protocol without double blinding. All the patients included receive the treatment at a dose adapted to their weight. Finally, it was initially designed as being monocentric (Paris), although it is currently undergoing extension to Spain (Almeria).
However, this Audiowolf protocol is not a competitor but rather complementary to Treatwolfram. Indeed, it makes it possible to include patients who did not meet the inclusion criteria of the Treatwolfram protocol due to too low visual acuity. On the other hand, the auditory, visual, neuro-radiological and biological tests are identical. Thus, after a separate processing of both protocols, these different data can be combined for common analyses. Finally, this protocol will make it possible to better analyze the auditory impairment of Wolfram syndrome. On the other hand, all patients receiving sodium valproate, an ancillary study was initiated to understand how this molecule may affect insulin regulation.
In practice, the inclusion criteria require, among other things, a hearing impairment of at least 5 dB at 8000 Hz. And this protocol can be delivered “turnkey” to teams that would like to propose it to their patients.
Points noted:
•  Patients enrolled in this study must have some level of hearing loss (those with hearing implants can be included).
•  Study first started in Nov 2021 – after TreatWolfram (to avoid patients needing to choose which study to participate in).
•  Secondary objective of the study is to evaluate C-peptide to try to understand how sodium valproate acts on insulin secretion.
•  A rare side effect of sodium valproate is hearing loss, which is typically bilateral and reversible. This will need to be considered should any patients experience severe hearing loss during the study (patient data likely to be excluded, at least initially).
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8th International Wolfram Symposium Presentation Prof Catherine Verfaillie – Stem Cell Institute, KU Leuven, Belgium

8th International Wolfram Symposium Presentation Prof Catherine Verfaillie – Stem Cell Institute, KU Leuven, Belgium
 
iPSC-based modeling of Wolfram Syndrome and therapeutic genome editing approaches
 
Points noted:
•  Developed iPSC-based models of different cell types – neural cells, ganglion, astrocytes, and blood brain barrier endothelial cells.
•  These cell lines can be shared with other WS researchers who would like to use them.
•  Further evaluate (e.g. myelination, stain for different markers) and explore changes over time. Also compare with WS-derived models to explore differences.
•  Base editing conducted using this system – look to see if / how this can be delivered in vivo.
•  Translate findings to mouse model – exchange with Fumi (Dr Urano) mouse model with current iPSC system.
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8th International Wolfram Symposium Presentation Mathias Leinders – Amylyx Pharmaceuticals 

8th International Wolfram Symposium Presentation Mathias Leinders – Amylyx Pharmaceuticals 

Helios – A Phase II Study of Safety and Efficacy of AMX0035 in Wolfram Syndrome

Summary: Update on the clinical trial design of Helios, and the rationale for using AMX0035 as potential treatment for Wolfram Syndrome. 

Points noted: 

  • AMX0035 is a combination therapy of two compounds– TUDCA (tauroursodeoxycholic acid) and sodium phenylbutyrate (PB). 
  • Approved in the US for ALS, not currently approved in the EU. 
  • Investigational drug for WS. Received orphan drug status in US. 
  • Shown to decrease neuronal death, mitigate ER stress and mitochondrial dysfunction. 
  • Excellent safety and tolerability profile shown in previous studies (Ph III in ALS). Taste issues have been reported previously (AMX0035 = sachet). 
  • Currently conducting a collaboration with Dr Urano (preclinical and clinical). 
  • As part of this collaboration, an open label Ph II study has started in US to recruit 12 patients to assess safety (using standard endpoints), tolerability, various measurements (e.g. beta cell function), and exploratory biomarkers. 
  • Study will monitor C-peptide levels (as a surrogate endpoint) over 24-week period. Patients will therefore need to be relatively healthy to be able to participate (It was noted that not many patients will meet the inclusion criteria required for C-peptide levels). Based on learnings from the dantrolene trial, the target of 12 patients should be achieved. 
  • The study aims to assess whether there is value in treating WS patients as early as possible and if data are encouraging will expand to larger and longer studies. 
  • The study protocol includes a 4-hour mixed meal tolerance test (MMTT) (which it was noted is a big ask for patients and researchers). This test was specifically requested by the FDA. If data are encouraging, the aim is to propose to reduce MMTT in a future larger trial. 
  • If data are encouraging, this will help to spur development in a juvenile programme. 
  • First patient recruited to this study April 2023 (week prior to the Symposium). 
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8th International Wolfram Symposium Presentation Dr Benjamin Delprat – University of Montpellier, France

8th International Wolfram Symposium Presentation Dr Benjamin Delprat – University of Montpellier, France
Advances on the pharmacological and gene therapies approaches
 
Abstract: Wolfram syndrome is a rare autosomal recessive disease affecting many organs with life-threatening consequences and currently no treatment is available. Therefore, the need to find a cure is imperative. The pathology is related to the deficient activity of wolframin, an endoplasmic reticulum (ER) transmembrane protein were shared from Estonia (Dr Mario Plaas). Final time point studied 7.5 months. Some changes detected very early (from 3 months). involved in contacts between ER and mitochondria termed mitochondria associated- ER membranes (MAMs). Inherited mutations usually reduce the protein’s stability, altering its homeostasis and ultimately reducing ER to mitochondria Ca2+ transfer resulting in mitochondrial dysfunction and cell death. We previously demonstrated that improving MAMs functioning by overexpressing NCS1, a wolframin partner, is efficient in correcting the cellular and behavioral alterations in our preclinical models of the pathology.
 
Based on these data, we focused our research on another crucial protein of the MAMs physiology, the sigma-1 receptor (S1R), an endoplasmic reticulum resident protein involved in Ca2+ transfer. Very interestingly, S1R could be activated by small active molecules to foster the Ca2+ transfer between ER and mitochondria. Therefore, we demonstrated that activation of S1R with the prototypic agonist PRE-084, restored Ca2+ transfer and mitochondrial respiration in vitro, corrected the associated increased autophagy and mitophagy, and was able to alleviate the behavioral symptoms observed in the genetic animal models of the disease, i.e. hyperlocomotion in wfs1abKO zebrafish and memory deficits and anxiety in Wfs1∆Exon8 mice. Our findings provide a new therapeutic strategy for Wolfram syndrome patients, by efficiently boosting MAM function using the ligand operated S1R chaperone.
 
Points noted:
•  NCS-1 (neuronal calcium sensor -1) represents a relevant target for treating WS.
•  Activation of S1R is beneficial in WS – (e.g. improved memory and increased Ca2+ in WS models).
•  S1R targeting is therefore relevant for WS patients.
•  NCS-1 modulators / stabilizers were not investigated.
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8th International Wolfram Symposium Presentation Karan Ahuja, Marjan Vandenabeele, Arefe Nami, Catherine Verfaillie, Lieve Moons, Lies De Groef

8th International Wolfram Symposium Presentation Karan Ahuja1, Marjan Vandenabeele2,3, Arefe Nami1, Catherine Verfaillie1, Lieve Moons2, Lies De Groef3
 
Oligodendrocytes in Wolfram syndrome: bystanders or partners in crime?
 
1Development and Regeneration Department, KU Leuven Stem Cell Institute, Leuven, Belgium 2Neural Circuit Development and Regeneration Research Group, Biology Department, KU Leuven Brain Institute, Leuven, Belgium
 3Cellular Communication and Neurodegeneration Research Group, Biology Department, KU Leuven Brain Institute, Leuven, Belgium
 
Abstract: Up till today, the neurodegenerative pathology associated with Wolfram syndrome (WS) is unstoppable. This treatment gap is at least in part due to the limited understanding of the underlying cellular mechanisms. In particular, it is becoming increasingly clear that –although neurons eventually die– there is a central role for glial cell types in most neurodegenerative disorders and it is essential to determine which of these cell types is the catalyst of the disease processes leading to WS, so that future therapies can be targeted to this cell type. In this study, based on recent evidence suggesting that the neurodegenerative component of WS could be driven by an oligodendrocyte rather than a neuronal pathology, we aimed to investigate what the effect of these ‘diseased’ oligodendrocytes is on the function of ‘healthy’ neurons, focusing on ER stress, mitochondria and cell metabolism as potential underlying mechanisms.
Our studies in iPSC-derived oligodendrocytes from WS patients reveal that these may be more vulnerable to ER stress and display signs of mitochondrial dysfunction. This, together with their seemingly reduced capacity to transfer metabolites and thereby support axons, suggests that oligodendrocyte dysfunction may, at least partially, be underlying the neurodegenerative component of WS. Next, we validated these findings in vivo, by investigating the retina and optic nerve of the Wfs1 KO mouse. We found that functional and glial cell alterations precede structural neuronal changes, and that these animals have problems with the oligodendrocyte cell lineage, leading to a decreased oligodendrocyte precursor cell number, a thinner myelin sheet and more signs of axonal degeneration in the Wfs1 KO animals. Finally, MRI studies of the brain of these Wfs1 KO mice showed a reduction in the volume of several brain regions, including the cerebellum, brainstem and corpus callosum which are also affected in WS patients– as well as changes in the apparent diffusion coefficient, pointing towards neurodegeneration and changes in myelination. Based on these data, it is tempting to speculate that the white matter changes and neuronal loss observed in WS patients is at least partly caused by problems with the supportive functions of oligodendrocytes: signal transduction via myelination and metabolic support of axons. This suggests that future WS therapies may need to target oligodendrocytes, rather than or in addition to neurons. All in all, our findings indicate that the eye is a window to the brain, with the retina reflecting the pathological processes ongoing in the brain.
 
Points noted:
•  Wfs1 KO mice
•  Also shared preliminary in vitro data where ER stress, mitochondrial dysfunction and cell death were observed in WS patient derived cell lines.
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8th International Wolfram Symposium Presentation Randal Hand PhD – Director of Neuroscience Research, Prilenia Therapeutics 

8th International Wolfram Symposium Presentation Randal Hand PhD – Director of Neuroscience Research, Prilenia Therapeutics
 
Pridopidine: A selective and potent S1R agonist as a potential treatment for Wolfram Syndrome
 

Points noted:
•  Pridopidine is currently in clinical trials for neurodegenerative conditions (e.g. ALS (Ph II moving into Ph III); Huntington’s (Ph III).
•  Currently being explored in WS due to commonalities in cellular pathways.
•  Rescue with Pridopidine has been shown to reduce ER stress and improve mitochondrial respiration in WS models.
•  Nausea and dizziness have been reported side-effects (fairly typical side- effects).
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8th International Wolfram Symposium Presentation Dr Xuehao Cui – PhD student and research fellow University of Cambridge and Moorfields Eye Hospital

8th International Wolfram Symposium Presentation Dr Xuehao Cui – PhD student and research fellow University of Cambridge and Moorfields Eye Hospital
 
Exploring novel ocular biomarkers of disease in Wolfram syndrome
 
Abstract: Visual loss in Wolfram syndrome arises primarily due to the selective loss of retinal ganglion cells resulting in optic nerve degeneration. We are exploring various ocular imaging modalities that would provide us with additional non-invasive tools to monitor this process more closely in affected individuals. Progressive brainstem and cerebellar atrophy are also well-recognised neuroradiological features of Wolfram syndrome and these could potentially be assessed by more detailed eye movement recordings. Our objective is to validate ocular biomarkers of disease in Wolfram syndrome that are both applicable to clinical practice and as outcome measures for treatment trials.
 
Points noted:
•  Aim to protect RGCs to stabilise vision / slow down vision loss.
•  Currently exploring a number of approaches to assess vision [e.g. OcuMet
(ocular mitochondrial health); Flavoprotein fluorescence (early signs of mitochondrial dysfunction) Optical Coherence Tomography (OCT; different layers of the retina); eye movement recording (level of OA)].
•  Recruiting patients (n=30) to a new study during May and June 2023; BWCH will refer patients to help boost numbers for the study.
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8th International Wolfram Symposium Presentation Prof Gil Leibowitz – President of the Israel Endocrine Society (IES), Hadassah Medical center, the Hebrew University, Jerusalem, Israel. 

8th International Wolfram Symposium Presentation Prof Gil Leibowitz – President of the Israel Endocrine Society (IES), Hadassah Medical center, the Hebrew University, Jerusalem, Israel. 

Pathophysiology and treatment of type 2 Wolfram syndrome.

Abstract: Type 2 Wolfram syndrome results from a missense mutation in the CISD2 gene, encoding NAF-1, which transfers Fe-S clusters from the mitochondria to cytosolic acceptor proteins. The carrier rate of CISD2 missense mutation among the Palestinian population in the Middle East is 1:40, suggesting a founder effect. Type1 and type 2 Wolfram syndrome have common and distinct clinical features, suggesting heterogeneity in disease phenotype and pathophysiology. NAF-1 deficiency leads to increased labile iron accumulation in the mitochondria with subsequent development of mitochondrial dysfunction and oxidative stress, resulting in neurodegeneration and diabetes. Treatment of NAF-1 deficient cells by iron chelation, N-acetylcysteine and GLP-1-RA reduced mitochondrial iron overload and alleviated oxidative stress and mitochondrial dysfunction. I will discuss the therapeutic implications of these findings. 

Points noted: 

  • T2WS is not extremely rare in the Middle east region (compared to WFS1). This is very different from the situation reported elsewhere (e.g. in US – almost all patients have WFS1 mutations rather than CISD2 mutations). 
  • CISD2 gene mutation (Glutamate – Glutamine, 8 amino acid frameshift with abnormal splicing and stop sequence) generates a protein which is 25% of the size of the native protein that is rapidly degraded. Unrelated families can carry the same mutation. 
  • Combined GLP-1-RA (e.g. exenatide) and N-acetylcysteine generate increased effects, compared with single treatment (e.g. beta cell protection). 
  • Better understanding of T2WS has implications for more common forms of Diabetes Mellitus. 
  • Early intervention is likely to be needed. 
  • RCTs need broad international collaboration. 
  • Heterozygous mutations were not studied to date. 
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Characterization of Mouse Models for Optic Atrophy in Wolfram Syndrome -Urano Lab

Characterization of Mouse Models for Optic Atrophy in Wolfram Syndrome -Urano Lab

Venu Gurram, William An, Shrini Bimal, Nila Palaniappan, Toko Campbell, Pooja Neerumalla, Devynn Hummel, Brianna Carman, Cris Brown, and Fumihiko Urano

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8th International Wolfram Symposium Presentation Dra. Gema Esteban- Bueno, Dr. Juan R. Coca, Dr. Nicolas Fernández-Fernández, Leticia Fernandez Amores, Miguel Navarro Cabrero, Dra. Aida Berenguel-Hernández and Spanish Multidisciplinary Wolfram Syndrome Group. Spain.

8th International Wolfram Symposium Presentation Dra. Gema Esteban- Bueno, Dr. Juan R. Coca, Dr. Nicolas Fernández-Fernández, Leticia Fernandez Amores, Miguel Navarro Cabrero, Dra. Aida Berenguel-Hernández and Spanish Multidisciplinary Wolfram Syndrome Group. Spain.

Descriptive analysis of 68 patients with Wolfram syndrome with emphasis on sensorineural involvement and possible phenotype-genotype correlation.

Abstract: Our work consists in providing greater knowledge of what already exists in the Wolfram Syndrome phenotype with special attention to hearing loss, through a descriptive and longitudinal study of two sets of patients affected from Spain and Portugal. The first set (descriptive study) contain a registry with patients that have been appearing since 1999, and the second set collects data from multidisciplinary assessments that have been carried out in Spain since 2011 year after year (longitudinal study).

In turn, a brief study of the genotype-phenotype relationship of the hearing loss that exists in patients of Spain and Portugal with Wolfram Syndrome has been carried out, based on the genetic data collected by our team.

Point noted:

·  Spanish and Portuguese families are evaluated through a multi-disciplinary team, who are in regular contact – to listen to families; accumulate experience and provide biopsychosocial support.

·  Currently assessing 2 patient populations (second set is a sub-set of the first).

·  No definitive pattern can be established for hearing loss or progression. Homozygous genetic changes are more severe.

·  The team actively participates in the WS Global Awareness Day and plan more activities for 2023.

·  The team are keen to collaborate with other groups / researchers to help drive change for families – valuable dataset.

·  University of Birmingham group (through Dr Renuka Dias) has been assessing gonadal function – connecting with the team in Spain may be helpful.

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