Alexander Lohman

Assistant Professor

Cell Biology & Anatomy

Ph.D. (Doctor of Philosophy)


Contact information

Phone

Office : 403-220-2898

Web presence

Google Scholar

Location

Courses

Teaching

Course Coordinator for MDSC 619.02 (Neuro II) Winter 2021
Lecturer in MDSC 619.02 (2 lectures on TBI pathophysiology and clinical outcomes)
 


Research

Research areas

  • neuroinflammation
  • optogenetics
  • neurological health
  • blood brain barrier integrity
  • traumatic brain injury
  • stroke

Activities

Lab Personnel:
Eric Eyolfson (PhD Candidate in Psychology)
Thomas Carr (PhD Candidate in Neuroscience)
Asher Kahn (Science Internship Student) 
Abigail Trebilcock (Honours Bachelor Student in Neuroscience)
Andy Cho (Neuroscience Undergraduate Student)

Our research program is focused on two central themes:

l) Deciphering key regulatory axes balancing beneficial vs. detrimental neuroinflammation; and

2) Engineering new optogenetic proteins and biosensors to manipulate and record neuron-glia/immune communication in the healthy and diseased brain.

Our primary goals are to understand determinants influencing whether local glia and/or invading peripheral immune cell populations promote or exacerbate neurological health and to harness this information to tip the balance in the brain to favour beneficial inflammation in neurological diseases. We are specifically interested in identifying novel signaling axes that influence phenotypic heterogeneity of local microglia and astrocytes, factors that affect bloodbrain-barrier integrity and the coordination of specific circulating immune cell subtypes into the brain, and the longterm consequences of these events on neural health.

By engineering new optically controlled proteins and biosensors we can manipulate communication between these cell types in specific ways to better understand molecular signaling cascades important for inflammatory polarization in the brain. Using animal models such as ischemic stroke and TBI that manifest a dichotomous neuroinflammatory response in conjunction with transgenic/knockout animals and our new optogenetic tools we are able to specifically identify pathways influencing inflammatory balance through flow cytometric immunophenotyping and RNA sequencing strategies. We are also employing in vivo multiphoton imaging to directly examine the spatiotemporal nature of brain inflammation to gain important insight into relevant therapeutic time windows for intervention. Combined with biochemical techniques our program examines neuroimmune communication from the molecular to whole animal level providing comprehensive, mechanistic understanding of how the CNS and immune systems interact in health and disease. 


Publications

PubMed


Awards

Grant:
SickKids Foundation and CIHR IHDCYH New Investigator Grant in Child and Youth Health.
NSERC Discovery Grant
John R. Evans Leaders Fund CFI.