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Anderson Lab

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Matt Anderson

Matthew Anderson, MD, PhD

Professor, Department of Pathology, School of Medicine
Co-Director, Harrington Rare Disease Program, School of Medicine

Email: mpa52@case.edu
OCRID: 0000-0003-4602-1811

 

Yi Nong, PhD

Research Scientist

Email: yi.nong@case.edu
ORCiD:

Interested in neuronal circuits that underlie human neurodevelopmental, psychiatric, and neurologic disease and evolution.

Location

Wolstein Research Building, Room 6014C 
2103 Cornell Road, Cleveland, OH 44106

Contact

Christine A. Dolinar
Senior Executive Assistant
UHHS HDI Direct Admin-10157
Christine.Dolinar@harringtondiscovery.org
Phone: 216-844-0461

Research Projects

Molecular-Circuit Mechanisms and Therapeutics for Immune and Genetic Autisms:
  1. UBE3A underlies a genetic autism due to idic15/dup15q acting in the nucleus to cause behavioral symptoms and converging and synergizing with epilepsy to repress expression of synapse organizer CBLN1 to break autism gene-rich NRXN1-CBLN1-GRID1 transsynaptic complex (Smith et al. Sci. Trans. Med. 2011; Krishnan et al. Nature 2017; Nong et al. bioRxiv 2023)
  2. Molecular pathway overlap of sporadic (immune) autism and genetic autisms
  3. Sociability Circuits: Ventral tegmental area (VTA) glutamatergic neurons drive social behavior where UBE3A reduces CBLN1 to breaks glutamatergic synapse and impair sociability (Smith et al. Sci. Trans. Med. 2011; Krishnan et al. Nature 2017)
  4. Aggression/Irritability Circuits: Hypothalamic feedback inhibitory arcuate AgRP/NPY neurons inhibit irritability/aggression where UBE3A reduces CBLN1 to break a collateral glutamatergic synapses from aggression driving ventromedial hypothalamic neurons in the ventrolateral subdivision to arcuate AgRP/NPY neurons that provide feedback inhibition (Nong et al. bioRxiv 2023).
Molecular Mechanisms and Therapeutics for Central and Peripheral Axonal Diseases

Genetic neurodevelopmental disease resulting from MAPK8IP3 truncations and missense mutations

Human Brain Evolution Molecular Mechanisms

Human-specific SINE-VNTR-ALU (SVA) retrotransposon in microcephaly gene CDK5RAP2 intron represses its expression to slow progenitor to neuron maturation, potentially contributing to the slowed maturation, enlarged brain, and advanced cognitive and sensorimotor functions in human relative to their closest living relative the chimpanzee. Discovered the function of founding SVA-lncRNA gene family member, AK057321, a gene duplicated in rare cases of autism. It forms RNA:DNA heteroduplexes with genomic SVA sequences and decoy binds SVA repressive KRAB domain zinc finger transcription factor ZNF91 to release the CDK5RAP2 gene repression. SVA retrotransposon and SVA-lncRNA gene regulatory system regulates human genes underlying intellectual, social, and language abilities providing new insights into the genetic basis of human evolution. (Nadler et al. Commun. Biol. 2023).

Identify, Resolve Molecular-Circuit Mechanisms, and Develop Therapeutics for Unrecognized CD8 T-cell- based Behavioral Brain Diseases:
  1. CD8 cytotoxic T-cell immunity targeting hypothalamic feeding circuits in obesity (~40% of cases) (Ahrendsen et al. Acta. Neuropath. Comm. 2023)
  2. CD8 cytotoxic T-cell immunity targeting circuits in suicide and depression
  3. CD8 cytotoxic T-cell immunity targeting astrocyte glia limitans in autism (~65% of cases). (DiStasio et al. Ann. Neurol. 2019)
  4. Others

Lab Members:

a headshot of Paola Loreto Palacio

Paola Loreto Palacio

MD, Pathology Resident

Email: paola.loretopalacio@case.edu
ORCiD: 0000-0003-1706-7896

Paola Loreto Palacio is an Anatomic Pathology Resident planning to specialize in Neuropathology. Paola is interested in studies of the hypothalamic infiltrate of CD8 T-cell in sporadic obesity.
a slightly angled headshot of Roman Boskovoynikov

Roman Boskovoynikov

PhD student, BSTP program

Email: rmv59@case.edu
ORCiD: 

Roman, a Pathology Ph.D. student at ºÚÁϳԹÏÍø (since 2024), likes using critical thinking and hands-on approaches to come up with ideas and establish experiments that get us practical data. At the Anderson lab, he focuses on the aggression brain circuitry and exploration of rare neurodevelopmental disease.

headshot of Brooke Mangano

Brooke Mangano

PhD student, BSTP program (Rotator)

Email: brooke.mangano@case.edu
ORCiD: 0000-0002-4903-5779

Brooke is a first-year PhD student who graduated from the University of Georgia in December 2024 with Bachelor's Degrees in Biomedical Physiology, Biochemistry, and Molecular Biology. Her goal is to make progress in the medical field through translational research. She aims to focus on epigenetics and pharmacology to find treatments for behavioral neurological disorders such as autism, depression, and anxiety. 

a headshot of Steven Overend

Steven Overend

MPH-PhD Student (Rotator)

Email: steven.overend@case.edu
ORCiD: 

Steven Overend recently received his master's degree in public health, with a veterinary public health specialization (MPH-VPH) and an extensive background in animal science. Steven is interested in the role of retrotransposons in gene regulation and human brain evolution.
a headshot of Sanjana Kumar.

Sanjana Kumar

Undergraduate Researcher

Email: sanjana.kumar3@case.edu

Sanjana, a second-year student at ºÚÁϳԹÏÍø, is majoring in neuroscience and minoring in psychology. As a pre-med student, she is eager to learn more about neuropsychiatric diseases.