Jennifer Hocking

Adjunct Assistant Professor
Division of Anatomy

Tel: 780.248.1795
Office: 5-05D Medical Sciences Building

Research Area:

The development and maintenance of photoreceptor morphology

Research:

Photoreceptors, the primary sensory cells of the eye, have highly specialized morphologies optimized for the detection of light. In fact, the rod and cone photoreceptors, responsible for low-light vision and high-acuity colour vision respectively, are named based on the shapes of their sensory endings, the so-called outer segments. Outer segments contain stacks of membranous disks laden with the opsin photopigments. Amazingly, the large outer segments must not only be built during development, but must be actively maintained through constant shedding of old disks and synthesis of new disks. In humans, photoreceptors cannot be regenerated, and any process that leads to destabilization of the outer segment will cause cell death and reduced visual acuity.

Our lab studies the mechanisms underlying formation of an outer segment during development and its ongoing maintenance in the adult, with the goal of expanding out understanding of the cell biology underlying retinal dystrophies. We use zebrafish as an animal model because zebrafish are vision-dependent predators with large eyes and excellent vision. Their retinas have an abundance of both rods and cones, allowing us to study both cell types. Further, we have many tools for manipulating zebrafish genetics and uncovering the genes necessary for outer segments.

In one project, we are looking at the role of the actin cytoskeleton in outer segment stabilization and renewal. Actin does not form the architecture of the outer segment but it is proposed to play three roles: 1) stabilization of microvilli-like calyceal processes that surround the base of outer segment, but are of unknown function; 2) facilitating transport of proteins into the outer segment; and 3) promoting expansion of nascent disks. None of these roles is well understood, but each may be fundamental to maintaining intact outer segments.

In a second project, we are examining how neural activity influences cell morphology. Photoreceptors are neurons that conduct ionic current, but oddly the current flow is highest in the dark and restricted in the light. Protein transport into the outer segment is influenced by the light:dark cycle, and we propose that formation of outer segment disks is affected by the ability of the cell to respond to light. We are currently modeling in zebrafish the human disease Cone Rod Dystrophy with Supernormal Rod Response (CDSR), which is caused by mutations in the potassium channel gene KCNV2. We predict that the human phenotype results from alterations to both photoreceptor current flow and morphology.


Selected Publications:

Morphogenetic defects underlie Superior Coloboma, a newly identified closure disorder of the dorsal eye.
Hocking JC, Famulski JK, Yoon KH, Widen SA, Bernstein CS, Koch S, Weiss O; FORGE Canada Consortium, Agarwala S, Inbal A, Lehmann OJ, Waskiewicz AJ.
PLoS Genet. 2018 Mar 9;14(3):e1007246. doi: 10.1371/journal.pgen.1007246. eCollection 2018 Mar.

Zebrafish jam-b2 Gal4-enhancer trap line recapitulates endogenous jam-b2 expression in extraocular muscles.
Matsui H, Dorigo A, Buchberger A, Hocking JC, Distel M, Köster RW.
Dev Dyn. 2015 Dec;244(12):1574-80. doi: 10.1002/dvdy.24347. Epub 2015 Oct 10.

Neural activity and branching of embryonic retinal ganglion cell dendrites.
Hocking JC, Pollock NS, Johnston J, Wilson RJ, Shankar A, McFarlane S.
Mech Dev. 2012 Jul;129(5-8):125-35. doi: 10.1016/j.mod.2012.05.003. Epub 2012 May 12.

Studying cellular and subcellular dynamics in the developing zebrafish nervous system.

Hocking JC, Distel M, Köster RW.
Exp Neurol. 2013 Apr;242:1-10. doi: 10.1016/j.expneurol.2012.03.009. Epub 2012 Mar 23. Review

IAPs regulate the plasticity of cell migration by directly targeting Rac1 for degradation.
Oberoi TK, Dogan T, Hocking JC, Scholz RP, Mooz J, Anderson CL, Karreman C, Meyer zu Heringdorf D, Schmidt G, Ruonala M, Namikawa K, Harms GS, Carpy A, Macek B, Köster RW, Rajalingam K.
EMBO J. 2012 Jan 4;31(1):14-28. doi: 10.1038/emboj.2011.423. Epub 2011 Nov 25.

The centrosome neither persistently leads migration nor determines the site of axonogenesis in migrating neurons in vivo.
Distel M, Hocking JC, Volkmann K, Köster RW.
J Cell Biol. 2010 Nov 15;191(4):875-90. doi: 10.1083/jcb.201004154. Epub 2010 Nov 8. Erratum in: J Cell Biol. 2010 Dec 27;191(7):1413.