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Patients and Families

Overview

At Vico, we are driven by an unparalleled commitment to improving the lives of patients and families affected by neurodegenerative diseases. We know the immense challenges families face, and we are dedicated to developing innovative therapies that can make a meaningful difference.

Clinical Trials

Vico is committed to conducting clinical trials with the utmost care, transparency and ethical integrity. The safety and well-being of our participants is always our top priority. For more information on our Phase 1 first-in-human trial to assess the safety and tolerability of VO659 in people with Huntington’s disease and spinocerebellar ataxia type 1 and 3, visit: clinicaltrials.gov.

Huntington’s Disease

Overview
Huntington’s disease (HD) is a rare, inherited neurodegenerative disorder that leads to progressive brain cell death. HD is caused by a mutation in the HTT gene, which encodes the protein huntingtin. This mutation involves an abnormal expansion of CAG repeats within the gene, resulting in the production of a toxic form of the huntingtin protein. While the disease’s genetic basis was confirmed more than 30 years ago, HD still poses significant challenges due to the lack of effective therapies.

Symptoms typically begin between the ages of 30 and 50 but can occur earlier or later. The condition affects movement, cognition and mental health, leading to a wide range of symptoms that gradually worsen over time. The disease follows a predictable course, progressing over roughly 10 to 25 years after symptoms first appeared. In later stages, patients may lose the ability to walk, speak and perform daily tasks, requiring full-time care.

Diagnosis and Genetic Testing
Diagnosis of Huntington’s disease is based on clinical symptoms, family history and genetic testing which can confirm the diagnosis by identifying the presence of the expanded CAG repeats in the HTT gene.

Looking Forward
Although Huntington’s disease remains a challenging condition, advances in genetic research and targeted therapies are bringing us closer to new treatments that could alter the disease’s course. At Vico Therapeutics, we are committed to advancing research that targets the genetic and molecular roots of HD, aiming to bring new options and hope to patients and families affected by this condition.

Current Therapeutic Landscape
Despite decades of research, there are no disease-modifying treatments for Huntington’s disease. Existing medications only manage symptoms without slowing or stopping disease progression. Researchers are exploring potential treatments that could target the root cause of HD by reducing levels of the mutant huntingtin protein, improving cellular resilience or addressing other pathways involved in the disease. Advanced therapeutic approaches, such as antisense oligonucleotides (ASOs), gene therapy and small molecule drugs, are in development and in clinical trials, offering new hope for patients and families.

Spinocerebellar Ataxia Type 1 (SCA1)

Overview
Spinocerebellar Ataxia Type 1 (SCA1) is a rare, inherited neurodegenerative disorder that affects the cerebellum, brainstem and spinal cord, leading to progressive loss of coordination and movement control. SCA1 belongs to a group of genetic disorders known as polyglutamine (poly-Q) diseases, which include Huntington’s disease and other forms of spinocerebellar ataxia. SCA1 is caused by a mutation in the ATXN1 gene, resulting in an abnormal expansion of CAG repeat expansion mutation that produces a toxic form of the ataxin-1 protein. This disease is slowly progressive and, despite extensive research, still has no disease-modifying treatments.

Symptoms of SCA1 usually begin in early adulthood but can appear at any age. The disease affects motor control, speech and swallowing, progressing over time as more nerve cells are damaged. The progression of SCA1 is gradual but relentless. Life expectancy can vary depending on the age of onset, with later-onset cases generally progressing more slowly. In advanced stages, patients may require assistance with daily tasks and full-time care.

Diagnosis and Genetic Testing
SCA1 is diagnosed based on clinical symptoms, family history and genetic testing. Genetic testing can confirm the presence of an expanded CAG repeat expansion mutation within the ATXN1 gene, which is diagnostic for SCA1.

Looking Forward
With SCA1 research advancing rapidly, new therapeutic options are on the horizon. At Vico Therapeutics, we are committed to developing treatments that target the genetic and molecular roots of poly-Q diseases, including SCA1, to offer hope and new options to individuals and families living with these challenging conditions.

Current Therapeutic Landscape
Currently, there are no therapies that can slow or stop the progression of SCA1. Treatment options are limited to symptom management but recent advances in molecular biology and genetics have opened up potential new therapeutic avenues. Research is focused on targeting the mutated ATXN1 gene, reducing toxic ataxin-1 protein levels and preventing nerve cell damage. Approaches such as antisense oligonucleotides (ASOs) are being explored, aiming to alter the disease at its source and potentially giving patients more years of function and improved quality of life.

Rett Syndrome

Overview
Rett syndrome is a rare genetic neurological disorder that primarily affects girls and leads to severe cognitive and physical impairments. Rett Syndrome was initially mistaken for autism or cerebral palsy until genetic research uncovered its true cause. In 1999, researchers discovered that most cases of Rett Syndrome are caused by mutations in the MECP2 gene, which plays a critical role in brain development and function. This breakthrough allowed for more precise diagnosis and a better understanding of the disease, although no cure currently exists.

Symptoms and Disease Progression
Rett syndrome generally follows a typical pattern of normal development for the first 6–18 months, after which symptoms begin to appear and progressively worsen. The progression can vary widely, but children may lose the ability to speak and develop repetitive hand movements like wringing, clapping or tapping. They may also have difficulty walking and experience breathing irregularities, seizures and episodes of tremor. As symptoms further develop, mobility decreases further, and many individuals lose the ability to walk altogether. Muscle weakness, rigidity and scoliosis often worsen, though cognitive function may remain relatively stable.

Diagnosis and Genetic Testing
Rett syndrome is typically diagnosed based on clinical symptoms, but genetic testing is used to confirm the diagnosis. Identifying mutations in the MECP2 gene, which is responsible for regulating other genes important for brain development, is crucial in confirming Rett Syndrome.

Looking Forward
At Vico Therapeutics, we are dedicated to advancing research and developing therapies that target the underlying genetic and molecular mechanisms of Rett syndrome. By focusing on innovative approaches that aim to restore or enhance MECP2 function, we hope to provide more effective treatment options for children and families impacted by this challenging condition. As we work toward breakthrough therapies, our commitment remains steadfast to support those affected by Rett syndrome with compassion and scientific excellence.

Current Therapeutic Landscape
There is currently no cure for Rett syndrome, and treatment options focus on symptom management and improving quality of life through physical therapy and occupational therapy, speech and communication therapy, medication management and nutrition and feeding support.

Scientists are exploring approaches to restore normal MECP2 function, aiming to address the root cause of Rett syndrome and improve symptoms significantly. Clinical trials are underway, with researchers hopeful that emerging therapies may one day offer a transformative impact on the lives of those affected by the disorder.

Familial Alzheimer’s disease (FAD)

Overview
Familial Alzheimer’s disease (FAD) is a rare, inherited form of Alzheimer’s, representing a small percentage (about 1-5%) of all cases. Unlike the more common, sporadic form of Alzheimer’s disease that typically affects individuals over age 65, FAD often manifests much earlier, sometimes as early as 30 to 60 years old. This form of Alzheimer’s is passed down through generations in a family, with the genetic mutation almost guaranteeing onset if inherited.

The study of FAD has provided critical insights into the biological mechanisms underlying Alzheimer’s disease in general. The identification of specific gene mutations associated with FAD has fueled research into treatments that target these genetic roots, though no cure currently exists.

Symptoms and Disease Progression
FAD shares many symptoms with sporadic Alzheimer’s disease, though the progression can be notably rapid in FAD cases. Individuals with FAD may experience subtle memory lapses, difficulty organizing thoughts and trouble concentrating. Symptoms often begin years earlier than in sporadic Alzheimer’s disease. As FAD progresses, memory impairment worsens, and individuals may struggle with language, reasoning and social interactions. Personality changes and disorientation may also emerge, alongside challenges with daily activities. Individuals in advanced stages may lose the ability to communicate, recognize loved ones or perform basic tasks. Symptoms may include increased confusion, incontinence and physical frailty, necessitating full-time care.

The clinical features of FAD closely mirror those of sporadic Alzheimer’s but often with an accelerated progression. Common symptoms include memory loss, cognitive decline, behavioral and mood changes, impaired motor skills and disorientation.

The progression of FAD is swift, with the disease advancing over several years. Disease stages resemble those of Alzheimer’s, with rapid decline in cognitive and motor abilities, ultimately leading to complete dependence on caregivers.

Diagnosis and Genetic Testing
Diagnosing FAD involves a combination of clinical evaluation, genetic testing and family history assessment.

Looking Forward
At Vico Therapeutics, we are committed to advancing research for genetically linked neurodegenerative diseases like FAD. By focusing on the underlying genetic and molecular mechanisms of FAD, we aim to develop innovative therapies that offer hope for families affected by this challenging condition. Our work centers on leveraging cutting-edge approaches to not only slow the disease’s progression but also improve quality of life for patients and families. As we move forward, our goal is to make meaningful strides in transforming FAD care through both scientific breakthroughs and compassionate support.

Current Therapeutic Landscape
There is currently no cure for FAD, and treatments primarily aim to manage symptoms and slow disease progression. Key therapeutic options include medications, cognitive and behavioral therapy, lifestyle interventions and experimental treatments.

Families affected by FAD may benefit from early genetic counseling and proactive planning. Understanding their genetic risk allows family members to consider treatment options early, participate in clinical trials and make lifestyle adjustments to support cognitive health.

Community Resources

Knowledge is power in managing neurodegenerative disease. These trusted organizations provide valuable resources and support networks for individuals and families navigating neurodegenerative diseases.
Patients Families Overview Logo Huntingtons Disease Society Of America
Patients Families Overview Logo Cure Drpla
Patients Families Overview Logo National Ataxia Foundation
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Leadership
Leadership Prathana Khanna

Leadership

Prarthana Khanna, PhD

Vice President, Corporate Business Development and Strategy

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Prarthana joins us most recently from Eli Lilly where she led business development transactions across the enterprise, including but not limited to M&A, in-licensing, out-licensing, and equity investments. Prior to Lilly, Prarthana helped establish the business development function at Akouos and was part of the deal team for the Lilly’s acquisition of the company.

Prarthana obtained a B.Sc. in Genetics from the University of Western Australia in Perth, followed by a PhD in Genetics in David Walt’s lab at the Tufts University School of Medicine in Boston.

After completing her B.Sc., Prarthana worked as a Research Technologist at the Mass General Institute for Neurodegenerative Disease (MIND) where she conducted research on the Huntington’s Disease Biomarkers Program and conducted pre-clinical research with Novartis on therapeutic agents for Huntington’s Disease. During her PhD, Prarthana also worked at the Tufts technology transfer o4ce. After completing her PhD, Prarthana worked as a Senior BD Manager at the Harvard University O4ce of Technology Development, guiding Harvard faculty, post-docs, and grad students to commercialize their research. In this capacity, she negotiated licenses, options, and sponsored research agreements. After Harvard, Prarthana was at WuXi Biologics where she was the Head of Business Development and Licensing for North America and Europe and responsible for out-licensing WuXi Biologics’ proprietary platforms and antibodies.

Board of Directors

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Board of Directors

Catello Somma
(Board Observer) Seroba Life Sciences
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Catello Somma is a Partner at Seroba. He has a background in venture capital and clinical development, with a focus on the biotechnology and medical device industries. Prior to joining the firm in 2024, Catello was at TVM Capital (Munich), involved across different strategies for both biotech and medtech. Before starting a career in venture capital, Catello co-founded Clavius Pharmaceuticals, developing therapeutics for oncology and autoimmune diseases.
He started his career in 2009 working for different CROs and biotech companies between Italy and Switzerland.

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Bod jeroen vangindertael

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Jeroen Vangindertael, PhD

Ackerman’s van Haaren
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Dr. Vangindertael is an investment manager at Ackermans & van Haaren since 2020. Before that he was active at BNP Paribas Fortis Corporate banking in Life Sciences financing through debt and within their Private Equity department where he did both direct investments and fund-of-fund management of their Life Sciences VC portfolio. Jeroen holds a Master and a PhD degree in Biochemistry and Biotechnology from the KULeuven.

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Micah Mackison

CEO, Vico Therapeutics

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Mr. Micah Mackison was appointed CEO of Vico Therapeutics in August 2022. Prior to this role, Micah served as Chief Business Officer and Executive Vice President of Strategy and Corporate Development at Locanabio, an RNA-targeted gene therapy company. At Locanabio, he was instrumental in setting strategy, raising capital and helping build an organization focused on genetic neurological diseases. Prior to Locanabio, Micah held several leadership positions in corporate development and strategy. He served as Senior Vice President, Corporate Development and Strategy at Assembly Biosciences where he led business development efforts. Previously, Micah served as Head of Corporate Strategy and Senior Director, New Ventures at H. Lundbeck A/S, where he was focused on neuroscience. Prior to Lundbeck’s acquisition, he was Director, Corporate Development and M&A at Ovation Pharmaceuticals, a neuroscience-focused company that launched the first product for Huntington’s disease.

Earlier in his career, Micah held financial roles at Eli Lilly and Pfizer. He earned a B.S. in Finance from the Kelley School of Business at Indiana University.

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Board of Directors

Felice Verduyn-Van Weegen

EQT Life Sciences

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Felice Verduyn-Van Weegen is an Investment Manager at LSP and has been with the company since early 2015. Felice serves on the Boards of AM-pharma, Alize 3 pharma, Pharvaris (observer) and OxThera (observer). Prior to joining LSP, Felice was a consultant at McKinsey & Company with a primary focus on healthcare. Before McKinsey, she was a neuroscientist and statistical geneticist, working with the prestigious complex traits genetics group at the Broad Institute and Harvard Medical School.

Felice previously worked at the department of Biological Psychology at the VU University in Amsterdam and has authored numerousscientific articles in prestigious journals.

Felice was awarded a Bachelor’s degree in biological psychology and a Master’s degree in neuroscience from the VU University, Amsterdam. In addition, she was awarded an MBA from Columbia Business School.

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Board of Directors

Martijn Kleijwegt
EQT Life Sciences
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Martijn Kleijwegt founded LSP in 1998 and currently serves as Managing Partner and co-owner of the firm where he is responsible for investing in unlisted securities and the general management of the firm. Prior to establishing LSP, Martijn ran another investment firm where he was responsible for investments in the healthcare sector.

As one of Europe’s most experienced healthcare investors, Martijn brings over 30 years of hands-on finance and investment experience to the LSP team. He has also been appointed a Director of numerous companies, all of which he helped to grow and flourish. Among others, Martijn currently serves as a Director of Kiadis Pharma, Orphazyme AS, OxThera AB, Pharvaris BV and Eloxx Pharmaceuticals.

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Remi Droller
Kurma Partners
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Rémi Droller serves as managing partner of Kurma Partners SA and member of the board of directors of Dyncaure SAS, ImCheck Therapeutics SAS, Orphazyme A/S, OxThera AB, AM Pharma BV, Flamingo Therapeutics BV and Pharvaris BV. Remi started at CDC Innovation from 2000 to 2003, later joining AGF Private Equity (now Idinvest Partners) where he developed the investment activity in the life sciences and made investments such as Novagali Pharma (listed on Euronext and acquired by Santen) Prosensa Therapeutics (listed on Nasdaq and acquired by Biomarin) Vivacta (acquired by Novartis), IntegraGen (listed on Alternext) Onxeo (listed on Euronext).

Rémi holds a master’s degree in molecular biology from Pierre and Marie Curie University in Paris and a Master’s degree in finance and management of innovation from AgroParisTech.

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Josh Mandel-Brehm

(Co-Founder) CAMP4 Therapeutics

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Josh Mandel-Brehm is President and Chief Executive Officer of CAMP4 Therapeutics and holds a dual appointment as entrepreneur partner with Polaris Partners.
Josh previously held key business development and operations leadership roles at leading biotech companies. Most recently he served at Biogen, where he led multiple strategic activities and corresponding transactions, which included expanding Biogen’s non-malignant hematology franchise and overseeing seminal investments to enter the gene therapy and ophthalmology field. Prior to Biogen, Josh held several roles of increasing responsibility at Genzyme as part of the business development group for the company’s rare disease business unit.

Josh earned a BA in Biology from Washington University in St. Louis and holds an MBA from the University of Michigan.

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Klaus Breiner, PhD

Pureos Bioventures
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Klaus Breiner is a founding and managing partner of Pureos and has been a venture capital investor since 2001, involved with life science companies across different regions, stages and types. Prior to Pureos, he was senior investment advisor private equity at Bellevue Asset Management. Klaus has invested in numerous bio-pharmaceutical companies including AM-Pharma, Alpex Pharma, Cadence Pharmaceuticals, Glycart Biotechnology, Hummingbird Bioscience, ImCheck Therapeutics and Vaximm. Prior to venture capital, Klaus was a researcher at ETH Zurich and a business consultant at Booz Allen & Hamilton.

Klaus holds an MA in chemistry from the University of North Carolina, Chapel Hill, and a PhD in molecular biology from the University of Heidelberg (ZMBH).

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Amy Schulman
Polaris Partners
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Amy Shulman is a healthcare investor and Managing Partner at Polaris Partners and LSPIF.
She currently serves as executive chair of SQZ Biotech, as well as Lyndra Therapeutics, where she was co-founder and the company’s initial CEO. Amy also represents Polaris as a director of Cyclerion (NASDAQ: CYCN), Dewpoint Therapeutics, Kallyope, Volastra, Thirty Madison and ByHeart. Amy joined Polaris in 2014, at which time she assumed the role of CEO of Arsia Therapeutics, a Polaris-backed company later acquired by Eagle Pharmaceuticals. She also co-founded the LS Polaris Innovation Fund which was formed in 2017.

Prior to joining Polaris, Amy was the general counsel of Pfizer, president of Pfizer Nutrition and was instrumental in its sale to Nestle for $11.85 billion in 2012. Soon after its sale, Amy also became the president of Pfizer Consumer Healthcare.
She has received numerous awards including Xconomy’s 2017 Newcomer Award, Scientific American’s 2015 Worldview 100 List, Fierce Biotech’s 2014 Top 15 Women in Biotech, and Fortune Magazine’s 2013 50 Most Powerful Women in Business. She is a Senior Lecturer at Harvard Business School and serves on the Board of Directors of Alnylam Pharmaceuticals (NASDAQ: ALNY) and Mount Sinai Hospital.  

Amy is a Phi Beta Kappa graduate of Wesleyan University and earned her J.D. from Yale Law School.

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Anders Hinsby, PhD

(Independent) Muna Therapeutics
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Anders Hinsby has more than 15 years of experience as a biotech entrepreneur, executive and investor. Currently, he is the CEO of Muna Therapeutics and works as entrepreneur-in-residence with Novo Seeds/Biorigin. Anders co-founded and served as CEO of Orphazyme A/S from 2009 to 2019 and led the company’s journey from University spin-out to a late-stage biopharmaceuticals company with a focus on rare diseases. In 2017, Anders led Orphazyme’s IPO on NASDAQ Copenhagen, raising 90 MUSD. Previously, he was a Principal and later Partner in BankInvest Biomedical Venture, a Danish life-science dedicated venture capital fund. He currently serves on the Boards of Intomics A/S a Danish Biotech.

Anders has a Ph.D. in Medicine from the University of Copenhagen.

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Luc Dochez, PhD

(Chair and Founder) Droia Ventures

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Luc Dochez is the Chairman and co-founder of Vico Therapeutics. He has been a Managing Partner at Droia Ventures since December 2018. Previously, Luc was Chief Executive Officer of Tusk Therapeutics from May 2015 until its acquisition by Roche in September 2018. He also served as Chief Business Officer and Senior Vice President of Business Development at Prosensa Holdings until its acquisition by BioMarin Pharmaceutical Inc. Earlier in his career, he served as Vice President of Business Development at TiGenix, Director of Business Development at Methexis Genomics and a consultant at Arthur D. Little.

Luc holds a Pharm.D. degree and a postgraduate degree in business economics from the University of Leuven (Belgium) and an MBA from Vlerick Management School (Belgium). Luc also serves on the Board of Directors of Erytech SA and is an advisor to EverImmune SA and QBIC II.

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Leadership
Leadership scott schobel

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Scott Schobel, MD

Chief Medical Officer
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As Chief Medical Officer, Dr. Scott Schobel is responsible for clinical development programs at VICO including the lead asset VO659, an allele-preferential ASO targeting CAG repeat expansion diseases.  He brings extensive experience in neurological drug development, particularly in Huntington’s disease.

Previously, Scott held several leadership positions at Roche. As Group Medical Director and most recently Clinical Science Leader, he pioneered the development of clinical endpoints in Huntington’s disease research. He co-chaired a task force that generated a new research-based disease staging framework for Huntington’s disease based on underlying biology. He also clinically led the first ever huntingtin-lowering therapy Phase 3 program with tominersen. Prior to Roche, Scott was an assistant professor of clinical psychiatry at Columbia University Medical Center where he studiedying hippocampal dysfunction across neurological and psychiatric diseases using a cross-species neuroimaging approach. He also served as medical director of Columbia University Medical Center’s Center of Prevention and Evaluation (COPE), a clinical service dedicated to the treatment and longitudinal study of teenagers and young adults at high risk for psychotic disorders.

Scott earned a BA in Japanese from the University of Minnesota, an MD from the University of North Carolina, and an M.S. from Columbia University.

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Leadership nicole datson

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Nicole Datson, PhD
Chief Scientific Officer
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Dr. Nicole Datson serves as Chief Scientific Officer of VICO, where she is responsible for discovery and non-clinical drug development. With more than twenty years of experience in preclinical research in both academia and industry, Nicole brings a strong background in molecular neuroscience to her position. Prior to joining VICO, she served as Senior Director Drug Discovery and Early Preclinical Development at BioMarin Nederland B.V.. Previously, Nicole served as head of preclinical development at Prosensa Therapeutics B.V., developing antisense oligonucleotide-based therapies.

An internationally recognized expert, Nicole was a member of the international Huntington’s Disease Collaborative Research Group that cloned the gene for Huntington’s disease.
She obtained her PhD in molecular genetics from Leiden University, The Netherlands and held research staff positions as assistant professor at the Department of Medical Pharmacology and Human Genetics at Leiden University and Leiden University Medical Centre (LUMC). During her academic career, Nicole obtained several prestigious research grants and headed a research group in the field of molecular neuroscience where she focused on the identification of genes and pathways controlled by stress hormones in the brain as potential drug targets for treatment of stress-related brain disorders. She is the author of over 70 publications in peer-reviewed scientific journals in the field of molecular genetics, molecular biology and molecular neuroscience and RNA modulation.

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Leadership

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Leadership
Leadership micah mackison

Leadership

Micah Mackison

Chief Executive Officer
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Mr. Micah Mackison was appointed CEO of Vico Therapeutics in August 2022. Prior to this role, Micah served as Chief Business Officer and Executive Vice President of Strategy and Corporate Development at Locanabio, an RNA-targeted gene therapy company. At Locanabio, he was instrumental in setting strategy, raising capital and helping build an organization focused on genetic neurological diseases. Prior to Locanabio, Micah held several leadership positions in corporate development and strategy. He served as Senior Vice President, Corporate Development and Strategy at Assembly Biosciences where he led business development efforts. Previously, Micah served as Head of Corporate Strategy and Senior Director, New Ventures at H. Lundbeck A/S, where he was focused on neuroscience. Prior to Lundbeck’s acquisition, he was Director, Corporate Development and M&A at Ovation Pharmaceuticals, a neuroscience-focused company that launched the first product for Huntington’s disease.

Earlier in his career, Micah held financial roles at Eli Lilly and Pfizer. He earned a B.S. in Finance from the Kelley School of Business at Indiana University.