Ann R Rittenhouse PHD
Title Associate Professor
Institution University of Massachusetts Medical School
Department Microbiology & Physiological Systems
Address University of Massachusetts Medical School
 55 Lake Avenue North
 Worcester MA 01655
Telephone 508-856-3735
Email
Other Positions
Institution UMMS - Graduate School of Biomedical Sciences
Department Cell & Molecular Physiology

Institution UMMS - Graduate School of Biomedical Sciences
Department Interdisciplinary Graduate Program

Institution UMMS - Graduate School of Biomedical Sciences
Department Neuroscience
Narrative

Academic Background

A.B., Mount Holyoke College, 1976
Ph.D., Boston University, 1984.

Calcium Channels and Neuronal Plasticity

Photo: Ann R. RittenhouseMy laboratory is interested in understanding the role that voltage-activated calcium channels play in neural plasticity. While plasticity of the brain at the level of complex human behavior is quite obvious, it is also apparent at the cellular level.

One initial site for plasticity occurs with the influx of calcium through voltage-activated calcium channels. Calcium influx serves a unique function of acting as a bridge between electrical and biochemical signaling in nerve cells. Variability in calcium channel kinetics and level and site of expression has profound effects on how much and where calcium enters a nerve cell. This in turn influences the strength of the synaptic contacts a nerve cell makes and on the underlying cellular and molecular processes that occur. Four potential levels of plasticity for neuronal calcium channels are being examined in this lab: Using whole cell and single channel patch clamp recording techniques we are asking 1) what are the underlying causes of the different endogenous patterns of activity observed in single channel currents and 2) how does channel behavior change when it is modulated by neurotransmitters and other cellular signals? Using molecular techniques, including Northern blot analysis and RNase protection assays we are trying to determine 3) what regulates the level of expression of the four protein subunits that make up different calcium channels and 4) do calcium channels switch subunits?

Research Figure
Publications
1. Gabriel L, Lvov A, Orthodoxou D, Rittenhouse AR, Kobertz WR, Melikian HE. The Acid-Sensitive, Anesthetic-Activated Potassium Leak Channel, KCNK3, Is Regulated By 14-3-3ß-Dependent, PKC-Mediated Endocytic Trafficking. J Biol Chem. 2012 Jul 30.
  View in: PubMed
 
2. Heneghan JF, Mitra-Ganguli T, Stanish LF, Liu L, Zhao R, Rittenhouse AR. The Ca2+ channel beta subunit determines whether stimulation of Gq-coupled receptors enhances or inhibits N current. J Gen Physiol. 2009 Nov; 134(5):369-84.
  View in: PubMed
 
3. Mitra-Ganguli T, Vitko I, Perez-Reyes E, Rittenhouse AR. Orientation of palmitoylated CaVbeta2a relative to CaV2.2 is critical for slow pathway modulation of N-type Ca2+ current by tachykinin receptor activation. J Gen Physiol. 2009 Nov; 134(5):385-96.
  View in: PubMed
 
4. Roberts-Crowley ML, Mitra-Ganguli T, Liu L, Rittenhouse AR. Regulation of voltage-gated Ca2+ channels by lipids. Cell Calcium. 2009 Jun; 45(6):589-601.
  View in: PubMed
 
5. Roberts-Crowley ML, Rittenhouse AR. Arachidonic acid inhibition of L-type calcium (CaV1.3b) channels varies with accessory CaVbeta subunits. J Gen Physiol. 2009 Apr; 133(4):387-403.
  View in: PubMed
 
6. Liu L, Heneghan JF, Michael GJ, Stanish LF, Egertová M, Rittenhouse AR. L- and N-current but not M-current inhibition by M1 muscarinic receptors requires DAG lipase activity. J Cell Physiol. 2008 Jul; 216(1):91-100.
  View in: PubMed
 
7. Rittenhouse AR. PIP2 PIP2 hooray for maxi K+. J Gen Physiol. 2008 Jul; 132(1):5-8.
  View in: PubMed
 
8. Liu L, Heneghan JF, Mitra-Ganguli T, Roberts-Crowley ML, Rittenhouse AR. Role of PIP2 in regulating versus modulating Ca2+ channel activity. J Physiol. 2007 Sep 15; 583(Pt 3):1165-6; author reply 1167.
  View in: PubMed
 
9. Zhao R, Liu L, Rittenhouse AR. Ca2+ influx through both L- and N-type Ca2+ channels increases c-fos expression by electrical stimulation of sympathetic neurons. Eur J Neurosci. 2007 Feb; 25(4):1127-35.
  View in: PubMed
 
10. Liu L, Zhao R, Bai Y, Stanish LF, Evans JE, Sanderson MJ, Bonventre JV, Rittenhouse AR. M1 muscarinic receptors inhibit L-type Ca2+ current and M-current by divergent signal transduction cascades. J Neurosci. 2006 Nov 8; 26(45):11588-98.
  View in: PubMed
 
11. Liu L, Roberts ML, Rittenhouse AR. Phospholipid metabolism is required for M1 muscarinic inhibition of N-type calcium current in sympathetic neurons. Eur Biophys J. 2004 May; 33(3):255-64.
  View in: PubMed
 
12. Liu L, Gonzalez PK, Barrett CF, Rittenhouse AR. The calcium channel ligand FPL 64176 enhances L-type but inhibits N-type neuronal calcium currents. Neuropharmacology. 2003 Aug; 45(2):281-92.
  View in: PubMed
 
13. Liu L, Rittenhouse AR. Pharmacological discrimination between muscarinic receptor signal transduction cascades with bethanechol chloride. Br J Pharmacol. 2003 Apr; 138(7):1259-70.
  View in: PubMed
 
14. Liu L, Rittenhouse AR. Arachidonic acid mediates muscarinic inhibition and enhancement of N-type Ca2+ current in sympathetic neurons. Proc Natl Acad Sci U S A. 2003 Jan 7; 100(1):295-300.
  View in: PubMed
 
15. Liu L, Barrett CF, Rittenhouse AR. Arachidonic acid both inhibits and enhances whole cell calcium currents in rat sympathetic neurons. Am J Physiol Cell Physiol. 2001 May; 280(5):C1293-305.
  View in: PubMed
 
16. Barrett CF, Liu L, Rittenhouse AR. Arachidonic acid reversibly enhances N-type calcium current at an extracellular site. Am J Physiol Cell Physiol. 2001 May; 280(5):C1306-18.
  View in: PubMed
 
17. Liu L, Rittenhouse AR. Effects of arachidonic acid on unitary calcium currents in rat sympathetic neurons. J Physiol. 2000 Jun 1; 525 Pt 2:391-404.
  View in: PubMed
 
18. Barrett CF, Rittenhouse AR. Modulation of N-type calcium channel activity by G-proteins and protein kinase C. J Gen Physiol. 2000 Mar; 115(3):277-86.
  View in: PubMed
 
19. N'Gouemo P, Rittenhouse AR. Biophysical and pharmacological characterization of voltage-sensitive calcium currents in neonatal rat inferior colliculus neurons. Neuroscience. 2000; 96(4):753-65.
  View in: PubMed
 
20. Rittenhouse AR, Zigmond RE. Role of N- and L-type calcium channels in depolarization-induced activation of tyrosine hydroxylase and release of norepinephrine by sympathetic cell bodies and nerve terminals. J Neurobiol. 1999 Aug; 40(2):137-48.
  View in: PubMed
 
21. Rittenhouse AR, Parker C, Brugnara C, Morgan KG, Alper SL. Inhibition of maxi-K currents in ferret portal vein smooth muscle cells by the antifungal clotrimazole. Am J Physiol. 1997 Jul; 273(1 Pt 1):C45-56.
  View in: PubMed
 
22. Rittenhouse AR, Vandorpe DH, Brugnara C, Alper SL. The antifungal imidazole clotrimazole and its major in vivo metabolite are potent blockers of the calcium-activated potassium channel in murine erythroleukemia cells. J Membr Biol. 1997 May 15; 157(2):177-91.
  View in: PubMed
 
23. Brugnara C, De Franceschi L, Armsby CC, Saadane N, Trudel M, Beuzard Y, Rittenhouse A, Rifai N, Platt O, Alper SL. A new therapeutic approach for sickle cell disease. Blockade of the red cell Ca(2+)-activated K+ channel by clotrimazole. Ann N Y Acad Sci. 1995 Jul 12; 763:262-71.
  View in: PubMed
 
24. Rittenhouse AR, Hess P. Microscopic heterogeneity in unitary N-type calcium currents in rat sympathetic neurons. J Physiol. 1994 Jan 1; 474(1):87-99.
  View in: PubMed
 
25. Plummer MR, Rittenhouse A, Kanevsky M, Hess P. Neurotransmitter modulation of calcium channels in rat sympathetic neurons. J Neurosci. 1991 Aug; 11(8):2339-48.
  View in: PubMed
 
26. Rittenhouse AR, Zigmond RE. Omega-conotoxin inhibits the acute activation of tyrosine hydroxylase and the stimulation of norepinephrine release by potassium depolarization of sympathetic nerve endings. J Neurochem. 1991 Feb; 56(2):615-22.
  View in: PubMed
 
27. Rittenhouse AR, Zigmond RE. Nerve stimulation in vivo acutely increases tyrosine hydroxylase activity in the superior cervical ganglion and its end organs. Brain Res. 1990 Jul 30; 524(1):156-9.
  View in: PubMed
 
28. Biguet NF, Rittenhouse AR, Mallet J, Zigmond RE. Preganglionic nerve stimulation increases mRNA levels for tyrosine hydroxylase in the rat superior cervical ganglion. Neurosci Lett. 1989 Sep 25; 104(1-2):189-94.
  View in: PubMed
 
29. Zigmond RE, Schwarzschild MA, Rittenhouse AR. Acute regulation of tyrosine hydroxylase by nerve activity and by neurotransmitters via phosphorylation. Annu Rev Neurosci. 1989; 12:415-61.
  View in: PubMed
 
30. Rittenhouse AR, Schwarzschild MA, Zigmond RE. Both synaptic and antidromic stimulation of neurons in the rat superior cervical ganglion acutely increase tyrosine hydroxylase activity. Neuroscience. 1988 Apr; 25(1):207-15.
  View in: PubMed
 
31. Rittenhouse AR, Price CH. Electrophysiological and anatomical identification of the peripheral axons and target tissues of Aplysia neurons R3-14 and their status as multifunctional, multimessenger neurons. J Neurosci. 1986 Jul; 6(7):2071-84.
  View in: PubMed
 
32. Rittenhouse AR, Price CH. Anatomical and electrophysiological study of multitransmitter neuron R14 of Aplysia. J Comp Neurol. 1986 May 22; 247(4):447-56.
  View in: PubMed
 
33. Rittenhouse AR, Price CH. Peripheral axons of the parabolic burster neuron R15. Brain Res. 1985 May 6; 333(2):330-5.
  View in: PubMed
 
34. Price CH, Fowle W, Rittenhouse AR. Anatomy and innervation of the anterior aorta of Aplysia and the ultrastructure of specialized neuromuscular junctions on vascular smooth muscle. J Comp Neurol. 1984 Jan 20; 222(3):366-82.
  View in: PubMed
 
For assistance with using Profiles, please refer to the online tutorials at http://inside.umassmed.edu/is/profiles.aspx or contact the UMMS Help Desk at UMWHelpDesk@umassmed.edu or 508-856-8643.
 
Keyword
Last Name
Institution
    
 
 
 
Co-Authors  
Armsby, Carrie
Kobertz, William
Liu, Liwang
Melikian, Haley
Sanderson, Michael
See all (5) people
Physical Neighbors  
Stavnezer, Janet
Volkert, Michael
Ikebe, Mitsuo
Sato, Osamu
Kowalik, Timothy

UMMS Home

Intranet

This is an official Page/Publication of the University of Massachusetts Worcester Campus
Office of the Vice Provost for Research, 55 Lake Ave North, Worcester, Massachusetts 01655
Questions or Comments? Email: publicaffairs@umassmed.edu Phone: 508-856-1572