David L. Paul

David L. Paul, PhD

Professor of Neurobiology, Harvard Medical School

We study the molecular structure and function of gap junctions, collec- tions of intercellular channels that allow the direct movement of small molecules between cells. These channels provide the electrical connections essential for the transmission of signals between many neurons as well as other excitable and non-excitable cells. Communication through gap junctions can also influence a diverse range of cellular behavior, including proliferation and differentiation. Over the last few years, we have cloned a family of genes, the connexins, that encode the components of intercellular channels. Recently we discovered that a hereditary dis-order, X-linked Charcot-Marie-Tooth (CMTX) disease, is associated with specific mutations in a connexin called Cx32. CMTX is an extremely common familial neuropathy characterized by slow, progressive motor and sensory loss. It mainly affects the peripheral nervous system, causing demyelination and slowing of nerve conduction velocities. We have shown that Schwann cells, which produce the myelin, make Cx32 and localize it to membranes near the nodes of Ranvier and at Schmitt-Lantermann incisures. Since myelinating Schwann cells do not establish gap junctions with one another and do not communicate, we have proposed that Cx32 forms intra-, not inter-, cellular junctions, providing an efficient radial pathway for diffusion of the signaling molecules between the Schwann cell body and peri-axonal cytoplasm. Thus, when Cx32 is nonfunctional, Schwann cells may not be able to support their peri-axonal cytoplasm and maintain normal myelination. However, some experimental observations don't completely fit this model. Using in vitro expression systems, we have tested the channel forming activity of Cx32 carrying certain CMTX mutations. Surprisingly, while most mutations result in nonfunctional channels, others appear to be completely normal. In addition, Cx32 knock-out animals do not develop CMT-like symptoms. Thus, basic questions about the etiology of CMTX and connexin function remain. To produce an animal model in which these issues can be addressed, we are using a knock-in strategy to replace normal Cx32 with a bona fide CMTX mutant. Cx32 may form "reflexive" gap junctions within a single Schwann cell. A highly diagrammatic cartoon illustrates how gap junction channels may connect paired membranes of adjacent gyres in compact myelin at an incisure of Schimdt-Lantermann. Cx32 is localized to incisures and paranodal membranes and is absent from compact myelin. Hypothetically, junctions could "short-circuit" the tube of cytoplasm connecting the Schwann cell body to its periaxonal cytoplasm, dramatically reducing the length of the path that nutrient or trophic molecules must traverse (dashed arrow). Although "reflexive" junctions have been noted in other cells, this is the first example with an obvious function.

"Over the last few years, we have cloned a family of genes, the connexins, that encode the components of intercellular channels."

Publications View
Gap Junctions Contribute to Differential Light Adaptation across Direction-Selective Retinal Ganglion Cells.
Authors: Authors: Yao X, Cafaro J, McLaughlin AJ, Postma FR, Paul DL, Awatramani G, Field GD.
Neuron
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Anticoagulant Protein S Targets the Factor IXa Heparin-Binding Exosite to Prevent Thrombosis.
Authors: Authors: Plautz WE, Sekhar Pilli VS, Cooley BC, Chattopadhyay R, Westmark PR, Getz T, Paul D, Bergmeier W, Sheehan JP, Majumder R.
Arterioscler Thromb Vasc Biol
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Diencephalic syndrome: a rare cause of failure to thrive.
Authors: Authors: Tosur M, Tomsa A, Paul DL.
BMJ Case Rep
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Influences on teleconsultation project utilization rates: the role of dominant logic.
Authors: Authors: Paul DL, McDaniel RR.
BMC Med Inform Decis Mak
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Facilitating telemedicine project sustainability in medically underserved areas: a healthcare provider participant perspective.
Authors: Authors: Paul DL, McDaniel RR.
BMC Health Serv Res
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Segregated Foxc2, NFATc1 and Connexin expression at normal developing venous valves, and Connexin-specific differences in the valve phenotypes of Cx37, Cx43, and Cx47 knockout mice.
Authors: Authors: Munger SJ, Geng X, Srinivasan RS, Witte MH, Paul DL, Simon AM.
Dev Biol
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Connexin 36 and rod bipolar cell independent rod pathways drive retinal ganglion cells and optokinetic reflexes.
Authors: Authors: Cowan CS, Abd-El-Barr M, van der Heijden M, Lo EM, Paul D, Bramblett DE, Lem J, Simons DL, Wu SM.
Vision Res
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Current issues in patient safety in surgery: a review.
Authors: Authors: Kim FJ, da Silva RD, Gustafson D, Nogueira L, Harlin T, Paul DL.
Patient Saf Surg
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Gap junction-mediated death of retinal neurons is connexin and insult specific: a potential target for neuroprotection.
Authors: Authors: Akopian A, Atlasz T, Pan F, Wong S, Zhang Y, Völgyi B, Paul DL, Bloomfield SA.
J Neurosci
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Inhibition of connexin 36 hemichannels by glucose contributes to the stimulation of insulin secretion.
Authors: Authors: Pizarro-Delgado J, Fasciani I, Temperan A, Romero M, González-Nieto D, Alonso-Magdalena P, Nualart-Marti A, Estil'les E, Paul DL, Martín-del-Río R, Montanya E, Solsona C, Nadal A, Barrio LC, Tamarit-Rodríguez J.
Am J Physiol Endocrinol Metab
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