Person

Tennore, Ramesh

Person ID
ZDB-PERS-051020-2
Email
t.ramesh@sheffield.ac.uk
URL
http://sitran.dept.shef.ac.uk/ramesh.html
Affiliation
Tennore Ramesh Lab
Address
PI/Lecturer Department of Neurosciences University of Sheffield Medical School EU05 E floor Beech Hill Road Sheffield, S10 2RX United Kingdom
Country
United Kingdom
Phone
(44) (0)1142222246
Fax
ORCID ID
Biography and Research Interest
Amyotrophic lateral sclerosis/Motor neuron disease (ALS/MND) is an adult onset motoneuron degenerative disease with a lifetime risk of ~1/1000. Approximately 80% of the cases are fatal within five years of diagnosis. There is no cure and only one FDA approved therapy, Riluzole has a minor effect on the progression of the disease. Mutations in genes such as SOD1, TDP-43, FUS, ANG, and VAPB also cause some forms of ALS although most forms of ALS is sporadic in nature. Despite the identification many genes causing ALS the exact mechanism of motor neuron toxicity is unclear, although a variety of mechanisms have been postulated. Identifying the upstream events that result in toxicity is critical to impact the disease process. Protein misfolding and cellular inclusions are a common theme in many neurodegenerative diseases including ALS. How protein misfolding contributes to toxicity, if protein inclusions are protective or detrimental is presently unknown. In most cases the accumulation of mutant proteins are not universally present in all cells but are restricted to specific cell types and also to specific regions in the CNS affected in the disease. Understanding the cause and mechanism of this toxic process is one of the focuses of my research. To understand disease process in this complex environment requires complex systems such as mice and more recently zebrafish.
My lab utilises the power of mice and fish to study the pathogenic processes involved in neuronal death. Many transgenic models of ALS have been developed and have given valuable insight into the cellular players involved in disease process. My lab recently developed a transgenic zebrafish model of ALS with mutation in the sod1 gene. Transgenic sod1 zebrafish carrying mutant sod1 develop disease that is similar to that seen in mice and human. Additionally, these transgenic fish show early embryonic readout of mutant sod1 induced cellular stress response as early as 24 hours post-fertilization allowing us to study disease in these microscopic stages.
Zebrafish are tropical fishes who are optically transparent in early embryonic and larval stages. Organogenesis is complete and freely swimming larvae hatch as early as 72 hours post-fertilization, providing a powerful tool to study tissue specific changes in diseased animals. Using GFP transgenic lines, we can visualize motoneurons and other spinal neurons cells in living animals. We can also analyze cell fate, axonal outgrowth and morphology, synapses (formation, maintenance, and activity), and motor behaviour. We can easily generate genetic mosaics to determine the autonomy of mutant sod1 and examine the cell autonomy of the mutant gene. This will allow us to readily address what cells contribute to the disease and the effect of mutant cells on wild-type motoneurons, an area, which is still in need of investigation. We employ molecular, cell biology, behavioural and genetic techniques to unravel the toxic mechanisms involved in ALS pathogenesis. Eventually, our goal is to test genes and drugs that can modify disease process to develop new therapies to treat ALS/MND.
Publications
Non-Zebrafish Publications
Ramesh T, Lyon AN, Pineda RH, Wang C, Janssen PM, Canan BD, Burghes AH, Beattie CE. 2010. A genetic model of amyotrophic lateral sclerosis in zebrafish displays phenotypic hallmarks of motoneuron disease. Dis. Models. Mech. (9�10):652�62.

Featured in �In this Issue� A zebrafish model for ALS. 2010. Dis. Models. Mech. (9�10):505.

Brennan C, Dosch R, Anna-Pavlina Haramis, Luckenbach T, Juan-Ramon Martinez-Morales, Enrico Moro, Bozena Polok, Ramesh T, Russell T, Argenton F & and Str�hle U. 2010. Report of the 1. European Zebrafish Principal Investigator Meeting in Padua, Italy , 18.-22.03.2010. 2010. Zebrafish. 7(3):305-10.

Human intrathecal transplantation of peripheral blood stem cells in amyotrophic lateral sclerosis. Janson CG, Ramesh TM, During MJ, Leone P, Heywood J. 2001. J Hematother Stem Cell Res.; 10(6):913-5

Integrating expression-based drug response and SNP-based pharmacogenetic strategies into single comprehensive pharmacogenomics program. Bonnie E. Gould Rothberg, Tennore M. Ramesh, Catherine E. Burgess. 2000. Drug Dev. Res.; 49:54-64

Position-dependent activity of alpha -fetoprotein enhancer element III in the adult liver is due to negative regulation. Peyton DK, Ramesh T, Spear BT. 2000. Proc Natl Acad Sci U S A.; 97(20): 10890-4

Ectopic expression of class I histocompatibility Dd protein during mouse development results in neural tube defects. Tennore M. Ramesh and Brett T. Spear. 1999. Transgenics.; 2:391-401

Altered anxiety and weight gain in corticotropin-releasing hormone-binding protein-deficient mice. Karolyi IJ, Burrows HL, Ramesh TM, Nakajima M, Lesh JS, Seong E, Camper SA, Seasholtz AF. 1999. Proc Natl Acad Sci U S A.; 96(20):11595-600

Individual mouse alpha-fetoprotein enhancer elements exhibit different patterns of tissue-specific and hepatic position-dependent activities. Ramesh TM, Ellis AW, Spear BT. 1995. Mol Cell Biol.; 15(9): 4947-55