Lab Alumni

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Sujata Pokharel

Research Technician

I graduated from Concordia University in Montreal with a specialization in Biology. I joined the Berman Lab team in February 2023 as a Research Technician. My project involves the use of zebrafish to study bone marrow failure syndromes and infant leukemia. I am very excited to learn more about using zebrafish as a model organism to study cancer. In my free time, I enjoy hiking, biking, cooking, and gardening.

Catherine Leclerc

Honours Student
Catherine is a third year student in B. Sc with Honours in Translational and Molecular Medicine and she joined the Berman lab in January 2022 for her roations project. She is studying the role of the NUP98-NSD1 fusion in pediatric AML under Dr. Sarada Ketharnathan where she has the opportunity to learn more about zebrafish and modern lab skills. Outside the lab, Catherine enjoys skiing, hiking, and doing activities with her friends.
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Kristianne Galpin

Lab Manager

Kristianne joined the Berman lab in 2023 after completing her PhD in 2022 at the University of Ottawa in Cellular and Molecular Medicine. She specializes in characterizing animal models of cancer for the development of effective therapeutic strategies. Kristianne is using zebrafish to model bone marrow failure syndromes and progression to leukemia, and will use these models to identify novel therapeutic strategies. Outside the lab, she enjoys reading, gardening, and video games.

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Keon Collett

Research Assistant

Keon Collett, a research assistant, graduated with an MSc. from the Department of Pathology at Dalhousie University where he developed zebrafish models of infant leukemia.  Keon is working to generate both a Cre/lox inducible transgenic model that expresses human MLL-fusion genes as well as a KMT2C knockout model in zebrafish. Before joining the Berman Lab, Keon completed his B.Sc in Biology at the University of Alberta where Keon’s undergraduate research used genetic models to study the role of Nrl in zebrafish retinal development. Outside of the lab and research, Keon enjoys cooking, bicycles, and plants

Erin Burnley

Rotations Student

Erin was a 3rd year student in the Translational and Molecular Medicine program. She joined the Berman lab in January 2022 for her rotations project and developed her lab skills and learned more about zebrafish as a model for Li Fraumeni Syndrome. Outside of the lab, Erin enjoys cooking, exploring Ottawa, and spending time with her friends.

Ben Cochrane

Volunteer Student

I was born in Halifax, Nova Scotia and have moved between Halifax, Colorado, and now Ottawa due to my military family background. This coming school year, I’m starting my first year in the Life Sciences and Biochemistry Undergrad Program at Queens University. I’m fascinated by immunology and allergies and hope to become an allergy specialist doctor or work in the medical field in the future. I enjoy playing hockey, meeting new people, trying new things, and hanging out with my French bulldog named Blue.

Lisa Pinto

Master Student

Lisa joined the Berman lab in January 2022 as an MSc student in Cellular and Molecular Medicine. She is also a clinical fellow completing her training in Pediatric Hematology/Oncology. She is interested in using the zebrafish model as a tool to support a precision medicine approach to the treatment of childhood cancer, and how the translational nature of this research can benefit her patients directly. Her Masters research is focused on investigating targeted treatments for high-risk neuroblastoma. Outside of the lab, Lisa enjoys spending time with family, friends, and her dog Hank, travelling, hiking, yoga and spin class.

Amy Stewart

Undergraduate Rotation Student

Amy is a third year TMM rotation student who is working under Dr. Sarada Ketharnathan. She is studying the genetic profile and phenotypic effects of Zebra fish modelling the KMT2C mutation combined with KMT2A fusions as seen in some infant leukemia patients. In her spare time, Amy is a journalist for the STEM podcast, SciSection, and enjoys coaching the uOttawa Boxing Club.

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Vinothkumar Rajan

Post-doctoral Fellow, Dr. Zúñiga-Pflücker lab, Sunnybrook Research Institute, Toronto
I was a former Ph.D. student in the Berman lab. I love to implement new methodologies to improve our understanding of normal blood development and apply it to ameliorate cancer therapy. 
 
Hometown: Chennai, India
Twitter: @vinothkr11

Jaime Wertman

Post Doctoral Fellow/Clinical Surveillor, Department of Pediatrics/College of Pharmacy, IWK Health Centre/Dalhousie University

Jaime currently works with Drs Ketan Kulkarni and Kerry Goralski as the Atlantic Node of the Canadian Pharmacogenomics Network for Drug Safety (CPNDS), a National group led by Dr Bruce Carleton. She is working on the Go PGx project, which is implementing genetic tests in pediatric oncology patients that may help predict their susceptibility to adverse drug reactions. She did her PhD with Dr Jason Berman, using the zebrafish as a model organism to model cisplatin-induced toxicity.

Hometown: Halifax, NS
Email: jaime.wertman@iwk.nshealth.ca

Nicholas Fernandez

M.Sc. Candidate, Dept. of Medical Biophysics, University of Toronto

Nick is currently a master candidate at the University of Toronto in Medical Biophysics under the supervision of Dr. Uri Tabori. His work focuses on single cell modelling of CMMRD, a rare paediatric cancer predisposition syndrome, with a focus on translation medicine. 

Hometown: Halifax, NS
Email: nick.fernandez@sickkids.ca

 

 

Sahar Da'as


Sahar is leading the Sidra Medicine Zebrafish Facility, where the zebrafish model is used for functional genomics to validate and characterize the genetic variants related to inherited diseases predominant in Qatar. Her work highlights zebrafish as a valuable experimental model and offers a roadmap for precision medicine. Through her Ph.D., she worked on modeling cardiomyopathy-associated genetic variants. In 2014, she established the first zebrafish facility within Qatar; currently, Sidra Medicine Facility offers a platform of assays merging the gap between a clinical phenotype and genomics findings. This platform represents a fast and reliable screening method for validating associated genes and for identifying novel genes potentially involved in rare pediatric genetic disorders. This approach brings together clinicians and scientists to accelerate the translation of genomics finding and zebrafish-based knowledge to clinical applications.

 

Sahar started her research career modeling human disease at the IWK Health Centre with Dr. Jason Berman working on childhood cancers. Her research focused on the characterization of the Notch signaling pathway role in mast cell development aiming to identify novel therapeutic strategies for targeting mast cells disease. The results of this work have been published in scientific articles and book chapter, oral presentations and posters in scientific international meetings.

 

Email:  sdaas@sidra.org

Corey Filiaggi

Genetic Counsellor and Clinical Coordinator, Maritime Newborn Screening Program

Corey went on to pursue an MSc (Genetic Counselling) from the University of Toronto, graduating in 2020. Corey currently works as a genetic counsellor and clinical coordinator for the Maritime Newborn Screening Program at the IWK Health Centre.

Hometown: Halifax, Nova Scotia
Email: corey.filiaggi@gmail.com

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Olivia Piccolo

Olivia was an initially a co-op student in the Dalhousie zebrafish core facility, then an Honours research student with the lab, and eventually a junior research assistant. Her project focused on evaluating the efficacy of a novel radiation beam used in conjunction with nanoparticles in head and neck cancer cells in the zebrafish. She graduated from Dalhousie University in 2019 with a BSc., and she is currently finishing up her MSc. at McMaster University. 

Tugce Balci

Tugce came to Berman lab from Turkey as a postdoctoral fellow in 2009. She is a doctor and medical geneticist by training and worked on the characterization of the zebrafish transgenic model of a rare human disease, called systemic mastocytosis. She also took part in other mast cell projects during her time and even xenotransplanted a few fish! She moved to Ottawa in 2012 to complete a medical genetic residency at CHEO. She is currently an assistant professor at Western University in London, ON and works as a medical geneticist at the London Health Sciences Centre. Her love of zebrafish kindled at the Berman lab continued to flame; she co-founded the zebrafish lab at Western, housed at the Department of Biology, in collaboration with Dr. Greg Kelly. Together, they use this model to characterize novel human disease genes and try to recapitulate the human phenotype in the zebrafish by using Crispr/Cas9 technologies to introduce variants.

https://www.schulich.uwo.ca/paediatrics/about_us/people/bios/Balci_Tugce%20.html

 

Hometown: Ankara, Turkey

Email: Tugce.Balci@lhsc.on.ca

Babak Razaghi

MSc, Doctor of Dental Surgery, Class of 2021
Babak is originally from Iran. He completed his Masters in Microbiology & Immunology at Dalhousie under supervision of Dr. Berman. He continued working on multiple projects in the Berman lab as a research associate until July 2017 (with a main focus on the HACE1 tumor suppression mechanisms). He then started the DDS program at Dalhousie and has since been active in research with the focus on bond strength enhancement of dental restorations.
 

Email: babak.razaghi@dal.ca

 

Adam Deveau

Internal Medicine Resident

Institution: Dalhousie University
E-mail: Adam.deveau@gmail.com
Hometown: Yarmouth NS

Melissa Richardson

Clinical Project Manager

Melissa is originally from Prince Edward Island where she graduated with a BSc at UPEI in 2016 prior to joining the Berman Laboratory at Dalhousie University, Nova Scotia as an MSc student. Her research consisted of utilizing the zebrafish animal model to investigate the impact of STAG2 loss on the migration of Ewing sarcoma cell lines. She graduated with an MSc in 2018 and moved abroad to France, currently based in Rennes as a Clinical Project Manager. This job involves management, support and coordination of clinical trials, including oncology studies. 

Kellie Cloney

MSc. MD  Pediatric Resident, Dalhousie University, IWK Health Center 

Kellie is originally from Kitchener, ON. However, she completed her education at Dalhousie University, in Halifax, NS. She joined the Berman lab, while performing research as a medical student at Dalhousie. She worked on modelling CHARGE syndrome, a rare pediatric condition, in the zebrafish. Since completed medical school and her research project, Kellie has gone on to become a resident in Pediatrics at Dalhousie. 

Email: Kellie.Cloney@dal.ca

Ben King

Ph.D. Candidate, Department of Ocean Sciences, Memorial University of Newfoundland

Ben is currently working to complete his Ph.D. in Ocean Sciences under the co-supervision of Drs. Paul Snelgrove and Robert Gregory. His work investigates how shifts in environmental conditions and changes in biotic community assemblages alter the spatial ecology of juvenile cod along the subarctic regions of Newfoundland and Labrador.

Hometown: Elora, ON
Email: bgcking@mun.ca

Andrew Coombs

To find out what Andrew has been up to since leaving the Berman Lab, head to ACoombs.ca

Gretchen Wagner

Currently working for the Nova Scotia Department of Fisheries and Aquaculture as an Aquaculture Biologist. She is responsible for the Environmental Monitoring Program for the province, where she monitors the effects of aquaculture operations on the marine environment and responds if the balance is disrupted.

Victoria Bentley

Victoria is currently a third year General Surgery resident at Dalhousie, graduating in 2023. Her time in the Berman lab, both on the bench and with Jason in the clinic, never ceases to serve her well and she is forever grateful! She can’t help but think all her zebrafish injections also helped hone her technical skills.  

Jessica MacLean

Family Medicine Resident at The Ottawa Hospital/University of Ottawa and she is from Nova Scotia.  

Zane Brown

2nd year Masters student in the Fabian Laboratory, McGill University.
Zane joined the Berman lab as a volunteer as he was completing his undergraduate degree in the medical sciences at Dalhousie university. During these two years he worked on a project aiming to develop a novel form of T-cell receptor for T-cell immunotherapy. As he transitioned into his honours degree, he worked under the supervision of Dr. Sergey Prykhozhij, looking to assess how miR-34a impacts the hypoxia response, and how this micro-RNA interacts with p53 using a zebrafish model. This RNA research paved the road towards pursuing graduate level research in the Fabian laboratory, where he is working to characterize the novel HIV repressing protein N4BP1. Zane enjoys biking around the city, picking the guitar and banjo, and playing basketball with his friends and colleagues.
 
Hometown: Halifax, NS

Dale Corkery

Post-doctoral Fellow

As a PhD student with the Berman lab, Dale was involved in initiating xenotransplantation studies to evaluate drug responses of human cancer cells engrafted in zebrafish embryos. His postdoctoral work at the Max Planck Institute of Molecular Physiology (Dortmund, Germany) and Umeå University (Umeå, Sweden) focuses on the use of chemical genetics to study membrane trafficking defects in neurodegeneration and cancer.

Rachel Woodside

Daniel Liwski

Benno Orr

Research Project Student in the Hospital for Sick Children Cohn Lab

Developing a CRISPRa-based therapy for congenital muscular dystrophy type 1A

Hometown: Halifax, NS
Email: benno.orr@mail.utoronto.ca

Cooper Coats

Matthew Cooper

Chansey Veinotte

Shelby Steele

Charlotte Fuller

Emma Cummings

Jake Seibert

Eve Teh

Tristan Dobson

Fui-Boon Kai

John Hsieh

Amanda Crosby

Sari Kichler

Alicia Howe

Ellen Boyd

Lauren (Klein) Rygier

Marta Vigerstad

Michael Kovendi

Brett Gardiner

Paul D’Alessandro

Lindsay McDonald

Chloe Grondin

Kirk Sinclair

Michael Forrester

Stewart Langley

Genetic Models of Rare Diseases

 

Zebrafish are a remarkably versatile platform for studying rare diseases (RD). The Berman lab studies genetic lesions that cause limb-girdle muscular dystrophy (LGMD). LGMD are a group of RDs that cause weakness and wasting of the muscles most proximal to the trunk, with multiple subtypes and different inheritance patterns that include mutations in LMNA, CAPN3, and DYSF genes. To assess zebrafish phenotypes, we use the birefringence assay and functional assays depending on the disease being modeled. Zebrafish models of LGMD and other muscular dystrophies have been generated to perform drug screens with chemical libraries to identify promising therapies.

The Berman lab also studies familial exudative vitreoretinopathy (FEVR), a rare congenital disorder commonly caused by mutations of the FZD4 gene and other genes coding for proteins in the Norrin signaling pathway. FEVR is characterized by a lack of blood vessel growth to the periphery of the retina causing leakage and hemorrhage and resulting in retinal detachment and blindness. We have generated a visually impaired zebrafish FEVR model exhibiting abnormal retinal vasculature to study vascular biology in retinovascular disorders and improve patient outcomes.

Lastly, CHARGE syndrome is linked to autosomal-dominant mutations in the CHD7 gene and results in multiple physiological and structural abnormalities, including heart defects, hearing and vision loss, and gastrointestinal (GI) problems. Our zebrafish CHARGE models have allowed us to examine GI structure, innervation, and motility, along with heart rate and responses to anesthesia. These zebrafish models help us to better understand the biological and genetic causes of pathology in these diseases and provide a platform for high-throughput drug screening.

Xenotransplantation Models of Pediatric Cancers​

 

The Berman lab has pioneered the transplantation of human cancer cells into the larval zebrafish for novel drug discovery and improving current clinical chemotherapies. We transplant both human cancer cell lines and patient derived tumour cells into larval zebrafish to better understand cancer progression and to find more personalized therapies. Cells can be tracked in real-time for proliferation, migration and homing to tissue niches. Responses to therapeutics added to the larval water or administered by intraperitoneal injection or gavage can be evaluated by fluorescence microscopy and quantified using ex vivo cell enumeration.

This platform has already been adapted to study metastasis in sarcoma; test novel compounds in AML; and reveal drug response-tumour genotype correlations in primary patient-derived T-cell acute lymphoblastic leukemia (ALL). This model has the potential to provide relevant drug response data in a clinically actionable timeframe, which can help improve patient outcomes and aid in a better quality of life. The Berman lab has leveraged this platform in the Model Systems Node of the Terry Fox Research Institute PRecision Oncology For Young peopLE (PROFYLE) program, which is an innovative pan-Canadian medicine program that strives to create new therapeutic inroads for children and youth with refractory, relapsed, or metastatic childhood cancers. The PROFYLE program aims to molecularly characterize 450 hard-to-treat cancers from children across Canada, experimentally model these tumours, and find molecularly targeted and biologically active treatments.

Genetic Models of Cancer and Cancer Predisposition Syndromes​

 

The Berman lab uses transgenic and CRISPR based approaches in the zebrafish to model cancer mutations and cancer predisposition syndromes to better understand the molecular mechanisms underpinning childhood leukemia and other cancers. We have developed and study zebrafish models of Li-Fraumeni Syndrome (LFS), a devastating cancer predisposition syndrome most frequently caused by autosomal inheritance of germline mutations in the TP53 gene.

We also study and have generated models of inherited bone marrow failure syndrome (IBMFS), which are characterized by deficient hematopoiesis in a subset of blood lineages and predispose children to developing myelodysplastic syndrome (MDS) and acute myeloid leukemia (AML). Shwachman-Diamond syndrome (SDS) is a well-known IBMFS, commonly caused by germline mutations in the SBDS gene and less frequently in the DNAJC21 gene. Affected children have an increased risk of developing MDS and AML.

We have been developing a model of DNAJC21-deficient SDS. Infant leukemia (IL) is a rare and aggressive leukemia that progresses rapidly with significant treatment and management challenges. Reciprocal translocations of the MLL1 (KMT2A) gene are present in most cases of either infant AML or infant acute lymphoblastic leukemia (ALL). We have generated the first IL zebrafish model by expressing MLL1 gene fusions in pathologically relevant blood cells. Our goal for these models is to increase the biological understanding of these diseases and to perform high-throughput phenotype-based in vivo testing of small molecules and targeted therapies that ameliorate disease and would otherwise be infeasible in other model systems.