ROLES OF EMX2 IN ODORANT RECEPTOR GENE EXPRESSION AND OLFACTORY SENSORY NEURON AXON GROWTH

McIntyre, Jeremy Colin

01 January 2009

The sense of smell relies upon the detection of odorants by neurons located in the nasal cavity. These neurons, referred to as olfactory sensory neurons (OSNs), line the olfactory epithelium and extend axons that make synaptic connections with mitral/tufted cells in the olfactory bulb. The mechanisms by which these synaptic connections form remain largely unknown. The development of these synaptic connections relies on the axons of immature OSNs innervating the olfactory bulb. The primary goal of this dissertation was to identify components of the mechanisms used by immature OSN axons to innervate the olfactory bulb. To accomplish this goal, a knockout mouse model was used. OSN axons, of Emx2 knockout mice fail to innervate the olfactory bulb. As EMX2 is a transcription factor, this model was used investigate the possible causes of the defective OSN axon growth. To gain a better understanding of OSN axon growth, differences in expression of axon growth and guidance genes in immature and mature OSNs was investigated. This analysis revealed that many axon growth and guidance genes are differential expressed, and helped to identify immature OSN specific genes. The data also revealed a previously unrecognized developmental stage, termed nascent OSNs, identified by the expression of Cxcr4. Analysis of Emx2-/- mice revealed that EMX2 is necessary for OSN survival, odorant receptor expression and expression of the axonogenesis related gene Ablim1. EMX2 is necessary for the expression of many odorant receptor genes; however the loss of odorant receptor expression does not explain the axon growth defects. Apoptosis is increased in Emx2-/- mice, an outcome that may be due to the failed axon growth. Analysis of axon guidance gene expression identified a large reduction in Ablim1 expression in Emx2-/- mice. Ablim1 is expressed by immature OSNs, placing it in the proper cell type to regulate OSN axon growth. The loss of Ablim1 expression in Emx2-/- mice indicates defective signaling in the axon growth cone and a possible mechanism regulating OSN axon growth into the olfactory bulb. The data presented in this dissertation provide new insight into the regulation of odorant receptor gene expression and OSN axon growth.

Medical Physiology

Optimization of protocol for immunofluorescence stain to observe nerve infiltration and regeneration in cancer tissue

Hanell, Malin

January 2022

Background: Neuronal plasticity and regeneration in cancer are understudied aspects of cancer research. Studies have shown that neurogenesis and axonogenesis are associated with cancer progression and metastatic potential. Purpose: The purpose of this project was to optimize an immunofluorescence stain to observe nerve development and regeneration in cancer tissue, with the use of antibodies against neurofilament light chain (Nf-L), growth associated protein 43 (gap-43), and doublecortin X (DCX). Material and method: Staining optimization included evaluations of antigen retrieval, tissue permeabilization, antibody dilution, and duration of primary antibody incubation. The analyses were tested on colorectal- and lung cancer tissues. Results: The detection of Nf-L was not successful in any combination of the analyses or on ether tissue. The staining Gap-43 showed the best results using antigen retrieval with pepsin in HCl and primary antibody dilution 1:500 combined with incubation overnight at 4 °C. Staining for DCX needs more evaluation due to non-specific binding in lung cancer tissue. The stain showed the best results with antigen retrieval performed with pepsin in HCl, primary antibody dilution 1:250 combined with 1 hour incubation at room temperature of the primary antibody. Permeabilization has to some degree shown good results in combination with antigen retrieval with pepsin in HCl. Conclusion: A good protocol was established for Gap-43 detection, but the procedures for Nf-L and DCX detections need to be optimized.

Neurogenesis

axonogenesis

neurofilament light chain

growth associated protein 43

doublecortin X

Biomedical Laboratory Science/Technology