鈥淧roperties of rhythmogenic currents in spinal Shox2 interneurons across postnatal development鈥
Singh S, Shevtsova NA, Yao L, Rybak IA, Dougherty KJ
J Physiol. 603(10):3201-3221. (2025)
鈥淎ctivity of spinal RORβ neurons is related to functional improvements following combination treatment after complete SCI鈥
Stachowski NJ, Wheel JH, Singh S, Atoche SJ, Yao L, Garcia-Ramirez DL, Giszter SF, Dougherty KJ
Proc Natl Acad Sci U S A. 122(15):e2406333122. (2025)
鈥淎 Distinct Down-to-Up Transition Assembly in the Retrosplenial Cortex during Slow-Wave Sleep鈥
Opalka AN, Dougherty KJ, Wang DV
J Neurosci. 45(14):e1484242025. (2025)
鈥淢itigating sTNF/TNFR1 activation on VGluT2 + spinal cord interneurons improves immune function after mid-thoracic spinal cord injury鈥
Martynyuk T, Ricard J, Bracchi-Ricard V, Price S, McGrath JR, Dougherty KJ, Tom V, Bethea JR
Brain Behav Immun. 2025 Jan;123:633-643. (2024)
鈥淚dentification of adult spinal Shox2 neuronal subpopulations based on unbiased computational clustering of electrophysiological properties鈥
Garcia-Ramirez DL, Singh S, McGrath JR, Ha NT, Dougherty KJ
Front Neural Circuits. 16:957084 (2022)
鈥淚psilateral and Contralateral Interactions in Spinal Locomotor Circuits Mediated by V1 Neurons: Insights from Computational Modeling鈥
Shevtsova NA, Li EZ, Singh S, Dougherty KJ, Rybak IA
Int J Mol Sci. 23(10):5541 (2022)
鈥淭he role of V3 neurons in speed-dependent interlimb coordination during locomotion in mice鈥
Zhang H, Shevtsova NA, Deska-Gauthier D, Mackay C, Dougherty KJ, Danner SM, Zhang Y, Rybak IA
Elife. 11:e73424 (2022)
鈥淪pinal cord injury alters spinal Shox2 interneurons by enhancing excitatory synaptic input and serotonergic modulation while maintaining intrinsic properties in mouse鈥
Garcia-Ramirez DL, Ha NTB, Bibu S, Stachowski NJ, Dougherty KJ
J Neurosci. 41(27):5833-48 (2021)
鈥"Spinal Inhibitory Interneurons: Gatekeepers of Sensorimotor Pathways鈥
Stachowski NJ, Dougherty KJ
Int J Mol Sci. 22(5):2667 (2021)
鈥淩psa Signaling Regulates Cortical Neuronal Morphogenesis via Its Ligand, PEDF, and Plasma Membrane Interaction Partner, Itga6鈥
Blazejewski SM, Bennison SA, Ha NT, Liu X, Smith TH, Dougherty KJ, Toyo-Oka K
Cereb Cortex. (2021)
鈥淣eural Interactions in Developing Rhythmogenic Spinal Networks: Insights From Computational Modeling鈥
Shevtsova NA, Ha NT, Rybak IA, Dougherty KJ
Front Neural Circuits. 14:614615 (2020)
鈥淔lexor and extensor ankle afferents broadly innervate locomotor spinal Shox2 neurons and induce similar effects in neonatal mice鈥
Li EZ, Garcia-Ramirez DL, Dougherty KJ
Front Cell Neurosci. 13:452 (2019)
鈥淭he rhythm section: An update on spinal interneurons setting the beat for mammalian locomotion鈥
Dougherty KJ and Ha NT
Curr Op Physiol. 8:84-93. (2019)
鈥淪pinal Shox2 interneuron interconnectivity related to function and development鈥
Ha NT and Dougherty KJ
Elife. 7, pii:e42519 (2018)
鈥淭he neuroplastic and therapeutic potential of interneurons in the injured spinal cord鈥
Zholudeva LV, Spruance VM, Marchenko V, Dougherty KJ, Sakiyama-Elbert S, Lane MA
Trends Neurosci. 41(9):625-639 (2018)
鈥淒elineating the Diversity of Spinal Interneurons in Locomotor Circuits鈥
Gosgnach S, Bikoff JB, Dougherty KJ, El Manira A, Lanuza GM, Zhang Y.
J Neurosci. 37(45):10835-10841 (2017)
鈥淎natomical Recruitment of Spinal V2a Interneurons into Phrenic Motor Circuitry after High Cervical Spinal Cord Injury鈥
Zholudeva LV, Karliner JS, Dougherty KJ, Lane MA.
J Neurotrauma. 34(21):3058-3065 (2017)
鈥淪pinal Hb9::Cre-derived excitatory interneurons contribute to rhythm generation in the mouse鈥
Caldeira V, Dougherty KJ, Borgius L, Kiehn O.
Sci Rep. 7:41369 (2017)
鈥淥rganization of the Mammalian Locomotor CPG: Review of Computational Model and Circuit Architectures Based on Genetically Identified Spinal Interneurons鈥
Rybak IA, Dougherty KJ, Shevtsova NA.
eNeuro. 2(5). pii: ENEURO.0069-15.2015 (2015)
鈥淧eeling back the layers of locomotor control in the spinal cord鈥
McLean DL, Dougherty KJ.
Curr Opin Neurobiol. 33:63-70 (2015)
鈥淟ocomotor rhythm generation linked to the output of spinal Shox2 excitatory interneurons鈥
Dougherty KJ, Zagoraiou L, Satoh D, Rozani I, Doobar S, Arber S, Jessell TM, and Kiehn O
Neuron. 80(4):920-933 (2013)
鈥淥ptogenetic dissection reveals multiple rhythmogenic modules underlying locomotion鈥
Hägglund M, Dougherty KJ, Borgius, L, Itohara S, Iwasato T, and Kiehn O
Proc Natl Acad Sci USA. 110(28):11589-11594 (2013)
鈥淟ocomotion: Circuits and Physiology鈥
Kiehn O and Dougherty KJ
In Neuroscience in the 21st Century. Pfaff, D.W., Ed. Chapter 38, p.1209-1236 (2013)
鈥淚dentification of minimal neuronal networks involved in flexor-extensor alternation in the mammalian spinal cord鈥
Talpalar AE, Endo T, Löw P, Hägglund M, Dougherty KJ, Ryge J, Hnasko TS, and Kiehn O
Neuron. 71(6):1071-1084 (2011)
鈥淔unctional organization of V2a-related locomotor circuits in the rodent spinal cord鈥
Dougherty KJ and Kiehn O
Ann NY Acad Sci. 1198:85-93 (2010)
鈥淧robing spinal circuits controlling walking in mammals鈥
Kiehn O, Dougherty KJ, Hägglund M, Borgius L, Talpalar A, Restrepo CE
Biochem Biophys Res Commun. 396(1):11-18 (2010)
鈥淟ocomotor circuits in the developing rodent spinal cord鈥
Kiehn O and Dougherty KJ
In Handbook of Brain Microcircuits. Shepherd, G. and Grillner S, Ed. Chapter 37 p.363-370 (2010)
鈥淎ctivation of groups of excitatory cells in the mammalian hindbrain or spinal cord evokes locomotion鈥
Hägglund M, Borgius L, Dougherty KJ, and Kiehn O
Nat Neurosci. 13(2):246-252 (2010)
鈥淔iring and cellular properties of V2a interneurons in the rodent spinal cord鈥
Dougherty KJ and Kiehn O
J Neurosci. 30(1):24-37 (2010)
鈥淧henotypic diversity and expression of GABAergic inhibitory interneurons during postnatal development in lumbar spinal cord of glutamic acid decarboxylase 67-green fluorescent protein mice鈥
Dougherty KJ, Sawchuk MA, and Hochman S
Neuroscience. 163(3):909-19 (2009)
鈥淪pinal cord injury causes plasticity in a subpopulation of lamina I GABAergic interneurons鈥
Dougherty KJ and Hochman S
J Neurophysiol. 100(1):212-23 (2008)
鈥淒ivergence between motoneurons: Gene expression profiling provides a molecular characterization of functionally discrete somatic and autonomic motoneurons鈥
Cui D, Dougherty KJ, Machacek DW, Sawchuk M, Hochman S, and Baro DJ
Physiol Genomics. 24:276-289 (2006)
鈥淧roperties of mouse spinal lamina I GABAergic interneurons鈥
Dougherty KJ, Sawchuk MA, and Hochman S
J Neurophysiol. 94(5):3221-3227 (2005)
鈥淢embrane receptors involved in modulation of responses of spinal dorsal horn interneurons evoked by feline group II muscle afferents鈥
Dougherty KJ, Bannatyne BA, Jankowska E, Krutki P, and Maxwell DJ
J Neurosci. 25(3):584-593 (2005)