Smooth Muscle Mechanics and Lyme Disease Laboratory
Lab head: Dr Brent McParland
Location: Blackburn Building
The Smooth Muscle Mechanics Laboratory studies mechanics and mediators which influence narrowing of the airways in respiratory disease such as asthma and chronic obstructive lung disorders.
Lyme disease studies focus on proving whether Australian ticks harbour the disease-causing pathogen Borrelia burgdorferi. This is extremely important with regards to clinical practice and what action is taken if someone is bitten by a tick. It is our mission to provide some answers.
Lab members: Lyme Disease Collaborators: Dr Ann Mitrovic and Ann Cincotta
Funding: Karl McManus Foundation currently provides funding
Research approach equipment: Airway Mechanics: in vitro organ bath methods in order to determine the relationship between airway structure and function (disease alters structure and consequently function). Availability of asthmatic tissue is very scarce, however, cells can be propagated using cell culture. Cell function can then be assessed by inserting them into a gel matrix and contracting them to mediators the can narrow airways, such as histamine. Using this method we can alter proteins within the cell in oder to determine their role in contraction. Lyme Disease: Currently we are extracting DNA from ticks and probing it using primers to target different parts of the Borrelia genome using PCR. We will also be culturing bacteria from the ticks in order to collect sufficient DNA for genomic sequencing. If our ticks do contain Borrelia, it may be a strain brought here from overseas recently or it may be one that had been here for a long time.
1. Trian T, Moir LM, Ge Q, Burgess JK, Kuo C, King NJC, et al. Rhinovirus-Induced Exacerbations of Asthma How Is the beta(2)-Adrenoceptor Implicated? American Journal of Respiratory Cell and Molecular Biology 2010;43(2):227-33.
2. Matsumoto H, Moir LM, Oliver BGG, Burgess JK, Roth M, Black JL, et al. Comparison of gel contraction mediated by airway smooth muscle cells from patients with and without asthma. Thorax 2007;62(10):848-54.
3. Herrera AM, McParland BE, Bienkowska A, Tait R, Pare PD, Seow CY. 'Sarcomeres' of smooth muscle: functional characteristics and ultrastructural evidence. Journal of Cell Science 2005;118(11):2381-92.
4. McParland BE, Pare PD, Johnson PRA, Armour CL, Black JL. Airway basement membrane perimeter in human airways is not a constant; potential implications for airway remodeling in asthma. Journal of Applied Physiology 2004;97(2):556-63.
Development of an in vitro breathing apparatus
Primary supervisor: Brent McParland
People with asthma have airways that narrow excessively and the reason for this is not known. We believe that the mechanisms involved in airway relaxation may be impaired in asthma. Airways are relaxed by circulating adrenaline or by inhaled β2-agonists. Breathing itself can also relax the airways, since during breathing the smooth muscle within the airways stretch, which in turn decreases contractile power. To investigate the effect of stretch on airway narrowing, in vitro, an apparatus is required that can simulate the effect of breathing. For this project a mechanical breathing apparatus will be developed using a tube/segment of airway tissue in an organ bath. Breathing will be simulated by controlling the amount of fluid within the tissue using computer controlled motors and the feedback will be provided by a pressure transducer. The motion control program used will be Labview.