CAREER: 1971 Master in Science, University
of Pavia. 1972-78 Post-doctoral fellow, Institute of General Physiology,
Faculty of Science, University of Pavia. 1978 Assistant Professor of General
Physiology, Faculty of Science, University of Pavia. 1982 Associate Professor
of General Physiology, Faculty of Pharmacy, University of Ferrara.
RESEARCH FIELDS: 1) Mechanisms of synaptic transmission at the cytoneural junction in the frog labyrinth; 2) Stochastic approaches to the study of synaptic function; 3) Studies of voltage-dependent currents in the hair cells of the frog labyrinth and in the rat superior cervical ganglion; 4) Biophysics of labyrinthine and ganglionic synapses.
CURRENT RESEARCH LINES:
In collaboration with M. Martini and G. Rispoli, Dept. Biology, Physiology and Biophysics, University of Ferrara, we have characterized, by using the patch-clamp technique, the Ca channel properties of the hair cells isolated from the semicircular canals of the frog labyrinth.
In collaboration with R. Fesce, Department of Structural and Functional Biology, University of Insubria, we have characterized the properties of transmitter release at the cytoneural junction of the frog labyrinth. Then we have studied the temperature dependence of quantal release and spike generation at the encoder and the effects of tonicity. Most recently, we have developed and refined original techniques of signal processing to analyse the signal processing features of this sensory system in control preparations and after exposure to microgravity.
In collaboration with O. Sacchi, Dept. Biology,
Physiology and Biophysics, University of Ferrara, we have developed a mathematical
model of the bioelectrical properties of the sympathetic neuron at the
rat superior cervical ganglion (SCG). Using this model, we have investigated
the properties of signal processing at the ganglionic synapse in response
to presynaptic activation.
Most relevant papers (1989-2010)
ROSSI M.L., Bonifazzi C., Martini M., Fesce
R.. Static and dynamic properties of synaptic transmission at the cyto-neural
junction of the frog labyrinth posterior canal. J. Gen. Physiol., 94, 303-327,
1989. IF 6.382
ROSSI M.L., Martini M.. Efferent control of
posterior canal afferent receptor discharge in the frog labyrinth.
Brain Res., 555, 123-134, 1991. IF 2.302
ROSSI M.L., Martini M., Pelucchi B. and Fesce
R.. The quantal nature of transmitter release at the cytoneural junction
of the frog labyrinth. J. Physiol. (Lond.), 478, 17-35, 1994. IF
4.552
ROSSI M.L., Martini M., Pelucchi B. and Fesce
R.. Pre- and postsynaptic effects of temperature at the posterior canal
cytoneural junction in the isolated frog labyrinth. Prim. Sensory Neuron,
1, 95-108, 1995.
Sacchi O., ROSSI M.L. and Canella C..
The slow Ca2+-activated K+-current, IAHP, in the rat sympathetic neurone.
J. Physiol. (Lond.), 483, 15-27, 1995. IF 4.552
ROSSI M.L., Ferrary E., Martini A., Martini
M., Pelucchi B., Bernard C., Teixeira M., Sterkers O. and Fesce R.. Effects
of clofilium, a K channel blocker, on electrogenic K secretion and afferent
discharge at the frog semicircular canal: A preliminary report. Acta Oto-Laryngol.
(Stockh.), 116, 277-279, 1996. IF 0.587
ROSSI M.L., Martini M. and Pelucchi B. The
frog labyrinth cytoneural junction and its efferent control. J. Audiol.
Med., 5, 32-42, 1996.
ROSSI M.L., Ferrary E., Martini A., Martini
M., Pelucchi B., Bernard C., Teixeira M., Sterkers O and Fesce R. The effect
of clofilium, a K-channel blocker, on the electrogenic K secretion and
the sensory discharge at the frog semicircular canal. Brain Res., 721,
174-180, 1996. IF 2.302
Sacchi O., ROSSI M.L., Canella R. and Fesce
R. The synaptic current at the rat ganglionic synapse and its interactions
with the neuronal voltage-dependent currents. J. Neurophysiol., 79, 727-742,
1998. IF 3.935
ROSSI M.L., Ferrary E., Martini M., Pelucchi
B., Bernard C., Teixeira M., Sterkers O, Rubbini G. and Fesce R.. The effects
of perilymphatic tonicity on endolymph composition and synaptic activity
at the frog semicircular canal. Hear. Res. 121, 99-108, 1998. IF
1.862
Sacchi O., ROSSI M.L., Canella C. and Fesce
R.. Participation of a chloride conductance in the subtheshold behavior
of the rat sympathetic neuron. J. Neurophysiol., 82, 1662-1675, 1999. IF
3.935
Martini M., ROSSI M.L., Rubbini G. and Rispoli
G.. Calcium currents in hair cells isolated from semicircular canals of
the frog. Biophys. J. 78, 1240-1254, 2000. IF 4.58
Sacchi O., ROSSI M.L. and Canella C.. Nicotinic
EPSCs in intact rat ganglia feature depression except if evoked during
intermittent postsynaptic depolarization. J. Neurophysiol., 83, 3254-3263,
2000. IF 3.935
Rispoli G., Martini M., ROSSI M.L., Rubbini
G. and Fesce R.. Ca-dependent kinetics of hair cells Ca currents
resolved with the use of cesium BAPTA. NeuroReport, 11, 2769-2774, 2000.
IF
2.682
Sacchi O., ROSSI M.L. and Canella C.. Synaptic
stimulation of nicotinic receptors in rat sympathetic ganglia is followed
by slow activation of postsynaptic potassium or chloride conductances.
Eur. J. Neurosci. 12, 2651-2661, 2000. IF 3.899
Perin P., Masetto S., Martini M., ROSSI M.L.,
Rubbini G., Rispoli G., Guth P. and Valli P.. Regional distribution of
calcium currents in frog semicircular canal hair cells. Hear. Res.
152, 67-76, 2001. IF 1.862
Rispoli G., Martini M., ROSSI M.L., Mammano
F.. Dynamics of calcium microdomains in hair cells of the frog
semicircular canal probed by fast fluorescence imaging.
Cell Calcium 30, 131-140, 2001. IF 3.438
Martini M., ROSSI M.L., Farinelli F., Moriondo
A., Mammano F and Rispoli G.. No evidence for calcium electrogenic exchanger
in frog semicircular canal hair cells. Eur. J. Neurosci. 16, 1647-1653,
2002. IF 3.862
Lelli A., Perin P., Martini M., Ciubotaru C.D.,
Prigioni I., Valli P., ROSSI M.L. and Mammano F.. Presynaptic calcium stores
modulate afferent release in vestibular hair cells. J. Neurosci. 23, 6894-6903,
2003. IF 8.17
Sacchi O., ROSSI M.L., Canella R. and Fesce
R.. A voltage- and activity-dependent chloride conductance controls the
resting status of the intact rat sympathetic neuron. J. Neurophysiol. 90,
712-722, 2003. IF 3.935
Martini M., Rispoli G., Farinelli F., Fesce
R. and ROSSI M.L.. Intracellular Ca2+ buffers can dramatically
affect Ca2+ conductances in hair cells. Hear. Res. 195, 67-74,
2004. IF 1.97
Sacchi O., ROSSI M.L., Canella C. and Fesce
R.. Biophysical properties of the silent and activated rat sympathetic
neuron following denervation. Neurosci. 135, 31-45, 2005. IF
3.45
ROSSI M.L., Prigioni I., Gioglio L., Rubbini
G., Russo G., Martini M., Farinelli F., Rispoli G. and Fesce R.. IP3 receptor
in the hair cells of frog semicircular canal and its possible functional
role. Eur. J. Neurosci. 23, 1775-1783, 2006. IF 3.82
Sacchi O., ROSSI M.L., Canella R. and Fesce
R.. Synaptic and somatic effects of axotomy in the intact, innervated rat
sympathetic neuron. J. Neurophysiol. 95, 2832-2844, 2006. IF
3.59
Russo
G., Calzi D., Martini M., ROSSI M.L., Fesce R. and Prigioni I.. Potassium
currents in the hair cells of vestibular epithelium: position-dependent
expression of two types of A channels. Eur. J. Neurosci. 25, 695-704, 2007.IF
3.82
Sacchi
O., ROSSI M.L., Canella C. and Fesce R.. Regulation of the subthreshold
chloride conductance in the rat sympathetic neuron. Eur. J. Neurosci. 25,
1112-1126, 2007. IF 3.82
Martini M., Farinelli F., ROSSI ML and Rispoli
G.. Ca2+ current of frog vestibular hair cells is modulated
by intracellular ATP but not by long-lasting depolarizations. Eur. Biophys.
J. 36, 779-786, 2007.IF
1.8
Sacchi
O., ROSSI M.L., Canella C. and Fesce R.. The nicotinic activation of the
denervated sympathetic neuron of the rat. Neurosci. 154, 1360-1371, 2008. IF
3.45
Martini
M., Canella R., Fesce R. and ROSSI M.L.. Isolation and possible role of
fast and slow potassium current components in hair cells dissociated from
frog crista ampullaris. Pfluegers Arch., 457, 1327-1342, 2009. IF
3.84
Martini
M., Canella R., Leparulo A., Prigioni I., Fesce R. and ROSSI M.L.. Ionic
currents in hair cells dissociated from frog semicircular canals after
preconditioning under microgravity conditions. Am. J. Physiol. Regul. Integr.
Comp. Physiol. 296, R1585-R1597, 2009. IF
3.66
Russo G., Calzi D., Gioglio L., Botta L., Polimeni
M.R., Zucca G., Martini M., Contini D., Fesce R., ROSSI M.L. and Prigioni
I.. Analysis of pre- and postsynaptic activity in the frog semicircular
canal following ototoxic insult: differential recovery of background and
evoked afferent activity. Neurosci. 163, 1327-1339, 2009.IF
3.56
ROSSI M.L., Rubbini G., Gioglio L., Martini
M. and Fesce R.. Exposure to reduced gravity impairs junctional transmission
at the semicircular canal in the frog labyrinth. Am. J. Physiol. Regul.
Integr. Comp. Physiol. 298, R439-R452, 2010. IF
3.66
Programma di Fisiologia
generale per CTF
Attività di ricerca
illustrata per gli studenti (versione
stampabile)
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La trasduzione nelle cellule sensoriali labirintiche:
la deflessione delle ciglia apre i canali di trasduzione e consente l'ingresso di ioni K e Ca |