Protection of retinal cells from ischemia by a novel gap junction inhibitor

Das, Satyabrata; Lin, Dingbo; Jena, Snehalata; Shi, Aibin; Battina, Srinivas K.; Hua, Duy H.; Allbaugh, Rachel A.; Takemoto, Dolores J.

doi:10.1016/j.bbrc.2008.06.069

Cited by 23 publications

(14 citation statements)

References 29 publications

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“…Morphological and ultrastructural studies in crayfish axons (122,123) and in rodent spinal cord, (124) both expressing Panxs, revealed small rosette-like GJ plaques that were completely different from the Cx GJ plaques, which have a bright punctate staining. Shestopalov and Panchin (4) hypothesized that these small rosette-like GJ plaques and the fine puncta observed in the Review article C. D'hondt et al Cx43: EC 50 ¼ 3 mM (90) 50 mM (104) IC 50 ¼ 2-4 mM (74) 10-100 mM (227) IC 50 ¼ 2-4 mM (74) 5-10% increase (229) Cx32: 100 mM Human/mouse Panx1: NE (229) Cx43: >10 mM (231) Flufenamic acid (FFA) 20-60 mM (235) Cx46 and 50: 3 mM (31, 236) 30 mM…”

Section: Structural Properties Of CX and Panx Channelsmentioning

confidence: 95%

“…(86,177) n/a n/a PQ4 Cx43: 10 mM (231) n/a n/a n/a n/a Meclofenamic acid (MFA) Cx50: EC 50 ¼ 21 mM (226) NE (45) n/a n/a n/a Cx50: 100 mM (235) Arachidonic acid Cx43: 20 mM (259) n/a n/a n/a 4-5 mM (292) Cx43: EC 50 % 32 mM (250) Oleic acid Cx43: 20 mM (259) n/a n/a n/a n/a Cx43: EC 50 % 35 mM (250) Oleyl alcohol Cx43: EC 50 % 35 mM (250) n/a n/a n/a n/a Palmitoleic acid Cx43: EC 50 % 60 mM (250) Cx45: 50 mM (265) n/a n/a NE (265) Cx43: 50 mM (276) Cx 37 and 40: 50 mM (251) Stearic acid Cx43: EC 50 % 102 mM (250) n/a n/a n/a n/a Caprylic acid Cx43: EC 50 % 185 mM (250) n/a n/a n/a n/a (Continues) (32) indicating that glycosylation hinders GJ formation. Secondly, the preference of Panxs for hemichannel formation may also be an intrinsic property of these proteins.…”

Section: Structural Properties Of CX and Panx Channelsmentioning

confidence: 99%

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Pannexins, distant relatives of the connexin family with specific cellular functions?

et al. 2009

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Intercellular communication (IC) is mediated by gap junctions (GJs) and hemichannels, which consist of proteins. This has been particularly well documented for the connexin (Cx) family. Initially, Cxs were thought to be the only proteins capable of GJ formation in vertebrates. About 10 years ago, however, a new GJ-forming protein family related to invertebrate innexins (Inxs) was discovered in vertebrates, and named the pannexin (Panx) family. Panxs, which are structurally similar to Cxs, but evolutionarily distinct, have been shown to be co-expressed with Cxs in vertebrates. Both protein families show distinct properties and have their own particular function. Identification of the mechanisms that control Panx channel gating is a major challenge for future work. In this review, we focus on the specific properties and role of Panxs in normal and pathological conditions.

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Section: Structural Properties Of CX and Panx Channelsmentioning

confidence: 95%

Section: Structural Properties Of CX and Panx Channelsmentioning

confidence: 99%

Pannexins, distant relatives of the connexin family with specific cellular functions?

et al. 2009

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“…[18][19][20][21][22][23][24][25][26] Gap junction modulation has been identified as a potential neuroprotective target and recently it has been shown that gap junction inhibitors protect retinal neurosensory cells from ischemia in a cell culture model. 27 Connexin43 is the most abundant gap junction protein in the CNS and is primarily expressed on astrocytes. Alterations in connexin43 expression have been described following acute injury to the CNS [28][29][30][31][32][33][34] and in a variety of degenerative 35,36 and inflammatory diseases, 37 suggesting a role in the pathogenesis of neuronal damage.…”

Section: Introductionmentioning

confidence: 99%

Gap junction protein connexin43 (GJA1) in the human glaucomatous optic nerve head and retina

Kerr

Johnson

Green

et al. 2011

Journal of Clinical Neuroscience

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“…In this scheme, toxic molecules are transferred intercellularly from dying cells to neighbors through communicating GJs, thereby producing a wave of ancillary cell degeneration (12,13). As the CNS locus with arguably the highest expression of GJs, bystander-mediated neuronal cell death in retina has been implicated in a number of pathologies, including excitotoxicity, retinitis pigmentosa, and ischemic retinopathy (12,(14)(15)(16)(17).…”

Section: Introductionmentioning

confidence: 99%

Targeting neuronal gap junctions in mouse retina offers neuroprotection in glaucoma

Akopian¹,

Kumar²,

Ramakrishnan³

et al. 2017

Journal of Clinical Investigation

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The progressive death of retinal ganglion cells and resulting visual deficits are hallmarks of glaucoma, but the underlying mechanisms remain unclear. In many neurodegenerative diseases, cell death induced by primary insult is followed by a wave of secondary loss. Gap junctions (GJs), intercellular channels composed of subunit connexins, can play a major role in secondary cell death by forming conduits through which toxic molecules from dying cells pass to and injure coupled neighbors. Here we have shown that pharmacological blockade of GJs or genetic ablation of connexin 36 (Cx36) subunits, which are highly expressed by retinal neurons, markedly reduced loss of neurons and optic nerve axons in a mouse model of glaucoma. Further, functional parameters that are negatively affected in glaucoma, including the electroretinogram, visual evoked potential, visual spatial acuity, and contrast sensitivity, were maintained at control levels when Cx36 was ablated. Neuronal GJs may thus represent potential therapeutic targets to prevent the progressive neurodegeneration and visual impairment associated with glaucoma.

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Protection of retinal cells from ischemia by a novel gap junction inhibitor

Cited by 23 publications

References 29 publications

Pannexins, distant relatives of the connexin family with specific cellular functions?

Pannexins, distant relatives of the connexin family with specific cellular functions?

Gap junction protein connexin43 (GJA1) in the human glaucomatous optic nerve head and retina

Targeting neuronal gap junctions in mouse retina offers neuroprotection in glaucoma

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