ライフサイエンスコーパス: intercellular communication

1 nsfected GABAergic neurons suggests hampered intercellular communication.

2 which gap junction nexus stability modulates intercellular communication.

3 and proteomic information for long distance intercellular communication.

4 oxododecanoyl)-homoserine lactone (C12), for intercellular communication.

5 ration of motility forces and restriction of intercellular communication.

6 n facilitate removal of apoptotic debris and intercellular communication.

7 Exosomes are nanoscale vesicles that mediate intercellular communication.

8 esicles of endocytic origin that function in intercellular communication.

9 ular and structural levels leads to impaired intercellular communication.

10 regulating DP size via beta-catenin-mediated intercellular communication.

11 s and function in both short- and long-range intercellular communication.

12 n adjacent cells to allow for gap junctional intercellular communication.

13 junction structures likely to be involved in intercellular communication.

14 e dynamics of transmembrane proteins, and to intercellular communication.

15 actors, EVs function as another mechanism of intercellular communication.

16 e been reported to play an important role in intercellular communication.

17 d, therefore, represent a potential means of intercellular communication.

18 for material transport through gap junction intercellular communication.

19 all, cell types as a means of sophisticated intercellular communication.

20 iveness to peptide and phytohormone-mediated intercellular communication.

21 most cell types, as biological packages for intercellular communication.

22 reproduction, as well as in interallelic and intercellular communication.

23 epresent a recently discovered mechanism for intercellular communication.

24 Exosomes are nanovesicles involved in intercellular communication.

25 aspects of physiology and disease, including intercellular communication.

26 esicles, including exosomes, as vehicles for intercellular communication.

27 lammatory diseases and as central players in intercellular communication.

28 les that combine baseline stochasticity with intercellular communication.

29 minal (Cx43CT) domain regulates gap junction intercellular communication.

30 by local interactions between cells such as intercellular communication.

31 ipient cells with gene expression changes as intercellular communication.

32 acellular calcium levels, thereby disrupting intercellular communication.

33 ltured cells, suggesting a role for ARMMs in intercellular communication.

34 capacity to stratify and express markers of intercellular communication.

35 and thereby provide a pathway for regulated intercellular communication.

36 NA between cells and their potential role in intercellular communication.

37 cytoskeletal integrity, cell morphology, and intercellular communication.

38 the first evidence of microvesicle-mediated intercellular communication.

39 spect to known mediators of inflammation and intercellular communication.

40 mother cell, which are linked by pathways of intercellular communication.

41 ed to the hypothesis that they might mediate intercellular communication.

42 Exosomes are involved in intercellular communication.

43 NA, and proteins, between cells as a form of intercellular communication.

44 nanotubes (TNTs) represent a novel route of intercellular communication.

45 ta-PIX, and RHOA GEFs that are implicated in intercellular communication.

46 cellular vesicles (EVs) are key mediators of intercellular communication.

47 llular stress responses and exosome-mediated intercellular communication.

48 eive cargo and machinery for cell growth and intercellular communication.

49 for LMC formation by CD4 T cells, affecting intercellular communication.

50 d disease, and are emerging as mediators for intercellular communication.

51 s in a regulated fashion and are involved in intercellular communication.

52 EVs) are proposed to play important roles in intercellular communication.

53 e immune system through a novel mechanism of intercellular communication.

54 f MSCs was down-regulated via gap junctional intercellular communication.

55 e studies of extracellular vesicles (EV) and intercellular communication.

56 (EVs) or exosomes represents a novel mode of intercellular communication.

57 cell signalling as well as intracellular and intercellular communication.

58 y provide insights into the exosome-mediated intercellular communications.

59 sport biological macromolecules that mediate intercellular communications.

60 ells through the modulation of Cx43-mediated intercellular communications.

61 e increasingly recognized to be important in intercellular communications.

62 asma membranes that facilitate long-distance intercellular communications.

63 cular entities involved in intracellular and intercellular communications.

64 Secreted peptides mediate intercellular communication [1, 2].

65 released from the cilium and can mediate the intercellular communication [4-9].

66 Gla protein suggests a novel role for EVs in intercellular communication, adding a new mechanism to t

67 Extracellular vesicles (ECVs) facilitate intercellular communication along the nephron, with the

68 smatic nucleus (SCN) is attributed to strong intercellular communication among its constituent neuron

69 osed as vehicles for microRNA (miRNA) -based intercellular communication and a source of miRNA biomar

70 e proteins and their respective functions in intercellular communication and adaptive responses evolv

71 Extracellular vesicles (EVs) are involved in intercellular communication and affect processes includi

72 ave been indicated as important mediators of intercellular communication and are emerging as new biom

73 They mediate several forms of intercellular communication and are upregulated in diver

74 asic science, particularly in the context of intercellular communication and cell-extrinsic control o

75 Intercellular communication and connexin43 expression le

76 Microparticles represent an intercellular communication and delivery mechanism for t

77 t that tumour-secreted miRNAs participate in intercellular communication and function as a novel pro-

78 They are active players in intercellular communication and have immune-suppressive,

79 vesicles (ECVs) that play important roles in intercellular communication and may mediate a broad rang

80 EVs may be used by cells as a form of intercellular communication and mediate a broad range of

81 eleased by cells and play important roles in intercellular communication and pathogen transfer.

82 d by reports indicating their unique role in intercellular communication and potential connection to

83 vesicles (ExMVs) have important functions in intercellular communication and regulation.

84 s of mammalian cells play important roles in intercellular communication and self-recognition.

85 Tumor-released RNA may mediate intercellular communication and serve as biomarkers.

86 Gap junction proteins (connexins) facilitate intercellular communication and serve several roles in r

87 logical synapse that make it a vital part of intercellular communication and some of the questions th

88 termed exosomes, contribute significantly to intercellular communication and subsequent reprogramming

89 e important roles of KSHV-associated VLVs in intercellular communication and the viral life cycle.

90 cades ago, the impact of these structures on intercellular communication and tissue biology is largel

91 ions and therefore act as lateral vectors of intercellular communication and transfer of genetic info

92 l-to-cell channels (septal pores) that allow intercellular communication and transport.

93 e deterministic features of chemosensing are intercellular communications and the role of pacemaker c

94 experimental systems that permit analysis of intercellular communications and tissue-tissue interacti

95 t M. tuberculosis by promoting inflammation, intercellular communication, and cell migration.

96 cells, cell shape, innate immune detection, intercellular communication, and competitor lysis.

97 f subcellular compartments, for coordinating intercellular communication, and for membrane deformatio

98 Exosomes are produced by cells to mediate intercellular communication, and have been shown to perp

99 l force transduction, electric transmission, intercellular communication, and metabolic exchange with

100 ticipate in non-classical protein secretion, intercellular communication, and pathologic calcificatio

101 gene, coding for a potential key protein in intercellular communication, and show that SepJ is local

102 aeruginosa virulence is controlled partly by intercellular communication, and the transcription facto

103 tructural basis for electrical and metabolic intercellular communication, and unapposed hemichannels

104 tal cell and constitute an important mode of intercellular communication - are becoming a primary top

105 Consequently, we identify an innate intercellular communication arming resident MCs with key

106 doderm in an isolated domain of gap junction intercellular communication at the midline, which in pri

107 eres in mammals and its development requires intercellular communication at the telencephalic midline

108 sicles are emerging as a potent mechanism of intercellular communication because they can systemicall

109 These results reveal a new mechanism of intercellular communication between activated CD8(+) T c

110 sues, they now emerge as novel regulators of intercellular communication between adjacent and remote

111 Gap junctions (GJs) mediate intercellular communication between adjacent cells.

112 hemichannels represent a powerful medium for intercellular communication between astrocytes and neuro

113 Intercellular communication between AWCs and non-AWC neu

114 Vesicles mediate intercellular communication between both neighboring and

115 t many cancer behaviors critically depend on intercellular communication between cancer cells themsel

116 are presumed to contribute to long-distance intercellular communication between distant plant parts.

117 ulation of Notch1 plays an important role in intercellular communication between endocardium and myoc

118 for miR-19a carried through the exosomes in intercellular communication between HCV-infected hepatoc

119 There is reciprocal intercellular communication between local muscle cell co

120 nctional proteins and small RNAs, facilitate intercellular communication between neighbouring cells,

121 Regulated exocytosis is a crucial event for intercellular communication between neurons and astrocyt

122 Intercellular communication between parasites and with h

123 Synaptogenesis requires orchestrated intercellular communication between synaptic partners, w

124 -specific inhibitors were used to prove that intercellular communication between T cells and dendriti

125 pite a lack of heterocellular gap junctional intercellular communication between the two cell types.

126 It is still unclear if there is intercellular communication between the vegetative cell

127 lar vesicles (EVs) are critical mediators of intercellular communication between tumor cells and stro

128 astrocytes in the CNS and forms gap junction intercellular communications between astrocytes-astrocyt

129 Intercellular communications between lung epithelial cel

130 ed as a paracrine factor that contributes to intercellular communications between MFs and tumor cells

131 ucinol (DAPG), function in intracellular and intercellular communication, both as autoinducers of the

132 Exosomes participate in intercellular communication, but most data published are

133 lticellularity required novel mechanisms for intercellular communication, but their origin is unclear

134 TNTs) have been described as a novel mode of intercellular communication, but their presence and impo

135 current hypotheses that cells control their intercellular communication by a fast and constant turno

136 of cell-released small vesicles that mediate intercellular communication by delivering functional fac

137 ed extracellular vesicles thought to promote intercellular communication by delivering specific conte

138 presented in this paper supports research in intercellular communication by enabling knowledge-based

139 angement of connexins is thought to regulate intercellular communication by establishing an ordered s

140 structures at the cell junctions that allow intercellular communication by facilitating the diffusio

141 phosphorylation regulates Cx43 gap junction intercellular communication by mediating structural chan

142 ld facilitate the transition of the study of intercellular communication by membrane nanotubes from c

143 tzincin metalloproteases have major roles in intercellular communication by modulating the function o

144 esicles (EVs) represent an important mode of intercellular communication by serving as vehicles for t

145 the connection between pattern formation and intercellular communication by showing that a mutation t

146 sized membrane vesicles that are involved in intercellular communication by transferring biological i

147 gest that exosomes play an important role in intercellular communication by transferring exosomal pro

148 esicles, which are important facilitators of intercellular communication by transporting contents, su

149 Exosomes enable intercellular communication by transporting genetic mate

150 eorganization of lymphoid tissue and dynamic intercellular communication called the germinal center r

151 Intercellular communication can be mediated by extracell

152 It is now widely accepted that intercellular communication can cause significant variat

153 D) form tubular connections that function as intercellular communication channels.

154 A new form of intercellular communication, contact-dependent growth in

155 ap junction plaque formation, gap junctional intercellular communication, Cx43 phosphorylation, and h

156 ensive array of small proteins essential for intercellular communication, defense, and physiologic re

157 Cx26 and Cx43, rendering them gap junctional intercellular communication-deficient as elucidated by i

158 ate that connexon-mediated cell adhesion and intercellular communication differentially influence mic

159 defensins and receptor-like kinases mediate intercellular communication during both the immune respo

160 ar mechanism for long-term cell guidance and intercellular communication during collective cell migra

161 state of AKI elucidate a novel mechanism for intercellular communication during development and repai

162 Mast cells (MCs) influence intercellular communication during inflammation by secre

163 explore the mechanism by which Ca(2+) blocks intercellular communication during tissue injury, we det

164 cles secreted from cells that participate in intercellular communication events.

165 In addition to their role in intercellular communication, exosomes are beginning to b

166 In addition to their key role as vehicles of intercellular communication, exosomes are increasingly r

167 Recent research has indicated a new mode of intercellular communication facilitated by the movement

168 composition, and their role as messengers of intercellular communication, focusing on their potential

169 Gap junctional intercellular communication (GJIC) between BC cells (BCC

170 Loss of gap junctional intercellular communication (GJIC) between cancer cells

171 Cx43-GJ-mediated intercellular communication (GJIC) between human NK and

172 Gap junction-mediated intercellular communication (GJIC) is essential for the

173 Gap junction intercellular communication (GJIC) is influenced by GCs

174 Gap junction intercellular communication (GJIC) is ubiquitous in the

175 ssembly and degradation to maintain balanced intercellular communication (GJIC).

176 ll differentiation and gap junction-mediated intercellular communication (GJIC).

177 process that is dependent on gap junctional intercellular communication (GJIC).

178 michannel activity, but reduced gap junction intercellular communication (GJIC).

179 and functional data suggest that the altered intercellular communication governed by mutated Cx50 pro

180 Intercellular communication has not been described previ

181 hension of the finely orchestrated nature of intercellular communication has stimulated scientists to

182 reconcile the exosome-mediated, miRNA-based intercellular communication hypothesis with the observed

183 uding exosomes, is a newly described form of intercellular communication important in the development

184 ws that exosomes are involved in fine-tuning intercellular communication in asthma.

185 icles have emerged as important mediators of intercellular communication in cancer, including by conv

186 miRNA transfer is an important mechanism of intercellular communication in HCC cells.

187 Exosomes are important mediators of intercellular communication in immune signaling, tumor s

188 Here, we investigate branch formation and intercellular communication in M. laminosus.

189 Intercellular communication in metazoa not only requires

190 s are small signaling molecules that mediate intercellular communication in microbial populations and

191 Gap junction intercellular communication in osteocytes plays an impor

192 no-sized membrane-lined channels controlling intercellular communication in plants.

193 teractions on fertility and the evolution of intercellular communication in pollination.

194 ferent organ systems, and suggest a role for intercellular communication in regulating the output per

195 uantitatively investigate the gap junctional intercellular communication in several homotypic and het

196 mplete cytokinesis play an essential role in intercellular communication in somatic and germinal tiss

197 icated a novel mechanism of exosome-mediated intercellular communication in the activation of HSC for

198 j can play a crucial role in many aspects of intercellular communication in the adult, in embryonic d

199 ers and quorum sensing signals indicative of intercellular communication in the aqueous environment w

200 We present evidence for intercellular communication in the brain involving a flo

201 cts were associated with a role for miR-1 in intercellular communication in the microenvironment medi

202 ion channels (pLGICs) play a central role in intercellular communication in the nervous system and ar

203 is study contributes to the understanding of intercellular communication in the pathogenesis of liver

204 shedding is emerging as an important mode of intercellular communication in the TME.

205 cells (ECs), but the molecular mechanisms of intercellular communication in the tumor microenvironmen

206 role in various cellular processes, such as intercellular communication, inflammation, cellular home

207 uitment into differentiating tissues through intercellular communication involving a complex signalli

208 Intercellular communication is a vital yet underdevelope

209 Exosome-dependent intercellular communication is an emerging signaling mec

210 Intercellular communication is an essential process in s

211 Intercellular communication is essential for glandular f

212 Intercellular communication is essential for proper card

213 Long-range intercellular communication is essential for the regulat

214 Intercellular communication is essential to coordinate t

215 The role of intercellular communication is increasingly recognized a

216 In biological systems, intercellular communication is mediated by membrane prot

217 Intercellular communication is not required; cells need

218 cells embedded in thin hydrogel films, where intercellular communication is only possible via diffusi

219 A striking example of this intercellular communication is the vascularization of th

220 er such a metabolic profile is influenced by intercellular communication is unknown.

221 One mechanism of intercellular communication is via exosomes, extracellul

222 FGF signaling, an important component of intercellular communication, is required in many tissues

223 by regulating expression of genes mediating intercellular communication, Lhx1 imparts synchrony amon

224 d populations, meaning that the inclusion of intercellular communication may be essential to produce

225 inated cellular syncytium, and disruption of intercellular communication may provide a therapeutic ta

226 ese data suggest that altered gap junctional intercellular communication may underlie certain cellula

227 changes in the landscape of exosome-mediated intercellular communications may place an overwhelming b

228 Communal bacterial processes require intercellular communication mediated by secretion system

229 In addition, intercellular communication mediated by the delivery of

230 As in intra- and intercellular communication, negative feedback may play

231 ey contribute to the formation of a GJ-based intercellular communication network.

232 cative of secretion of molecules involved in intercellular communications, notably matrix-related mol

233 dynamics have demonstrated that substantial intercellular communication occurs between cells of the

234 ration, suggesting that dynamic and intimate intercellular communication occurs between fungus and pl

235 d cells form multiple nanotubes that mediate intercellular communication of Ca(2+) signals and active

236 ivation of its GPCR (PDFR) are important for intercellular communication of phase information and coo

237 circadian control circuit independent of the intercellular communication of temporal phase informatio

238 ting two separable mechanisms of short-range intercellular communication, one utilizing the 'core' po

239 Here, we describe a new mechanism of intercellular communication originating from large oncos

240 We propose that this intercellular communication pathway may serve as a senso

241 ory genes and genes functioning in the Notch intercellular communication pathway.

242 GAS to integrate environmental signals with intercellular communication pathways in protection from

243 nd microvesicles, are important mediators of intercellular communication pathways.

244 icles (MVs), have emerged as a major form of intercellular communication, playing important roles in

245 This suggests that this novel form of intercellular communication plays an important role in s

246 unction of CD40L and a superior mechanism of intercellular communication possessed by type 1 polarize

247 abundance of gap junctions and the extent of intercellular communication, potentially explaining the

248 Exocytosis is a highly regulated intercellular communication process involving various me

249 They are, therefore, major elements in intercellular communication processes.

250 neighboring cells coupled via gap junctional intercellular communication, providing a mechanistic bas

251 portant organelle for lipid storage but also intercellular communication regarding energy metabolism,

252 rm the cell-cell contacts and to provide the intercellular communication required for the creation of

253 er blocked the disruption in PFOS-induced GJ-intercellular communication, resulting in the re-organiz

254 Intercellular communication sets the pace for transforme

255 receptors and ephrins represent a ubiquitous intercellular communication system that typically engage

256 bclass of extracellular vesicles involved in intercellular communication that are released by all cel

257 ynapses, which are adhesions specialized for intercellular communication that can be either chemical

258 via LPS has been reported by others, but the intercellular communication that induces IL-30 expressio

259 that highlights unanticipated complexity of intercellular communication that may have implications f

260 plicate adipocytes as a key component of the intercellular communication that mediates fibroblast fun

261 ver is one mechanism to control the level of intercellular communication that occurs through gap junc

262 Exosomes are important vehicles of intercellular communication that shape host responses to

263 Synaptic exocytosis is a specialized form of intercellular communication that shares a common SNARE-m

264 as EVs are accepted as an important means of intercellular communication, the mechanisms underlying p

265 Physiologically, ECVs are a new mechanism of intercellular communication; therapeutically, ECVs may b

266 as it is apparent that EVs are implicated in intercellular communication, they can also be used as bi

267 stem by double-stranded DNA (dsDNA) triggers intercellular communication through a gap junction-depen

268 Functional experiments strongly implicated intercellular communication through gap junctions and ca

269 ontogenetic into functional columns requires intercellular communication through gap junctions.

270 Gap junction (GJ) mediates intercellular communication through linked hemichannels

271 rones function at promoters to regulate this intercellular communication through their activation of

272 ritical to many biological processes such as intercellular communication, tissue and organ formation,

273 complex spatiotemporal patterns that require intercellular communication to coordinate gene expressio

274 partitioning of cortical PCP components and intercellular communication to coordinate polarity betwe

275 iological signature that MSCs may employ for intercellular communication to facilitate tissue repair.

276 One particular species may use intercellular communication to stymie Vibrio cholerae pa

277 Our results add GJ intercellular communication to the list of molecular sig

278 r compounds in tumors play critical roles in intercellular communication, tumor proliferation, and ca

279 ir microenvironment that act as mediators of intercellular communication under physiological conditio

280 Quorum sensing is a form of intercellular communication used by many species of bact

281 Intercellular communication via chemical signaling proce

282 Our data show that intercellular communication via ESX-1 controls the expre

283 ior neural fate points to a crucial role for intercellular communication via gap junctions, probably

284 They are specifically equipped to mediate intercellular communication via the transfer of genetic

285 the primary means through which EVs mediate intercellular communication, we characterized their abil

286 To directly investigate intercellular communication, we loaded the fluorescent t

287 ough adherens junctions provides a route for intercellular communication, we tested the hypothesis th

288 To model exosome-based intercellular communication, we used Madin-Darby canine

289 connexin expression patterns and pathways of intercellular communication were retained.

290 Exosomes are emerging mediators of intercellular communication; whether the release of exos

291 ons in the plasma membrane, and increased GJ intercellular communication while concomitantly decreasi

292 traspanins might be involved in facilitating intercellular communication, whose functions might be de

293 les (MVs), by cells has emerged as a form of intercellular communication with important roles in seve

294 xosomes are extracellular vesicles conveying intercellular communication with possible diagnostic and

295 gnificance of cellular positioning and local intercellular communication within lymph nodes while emp

296 tive airway epithelial regeneration requires intercellular communication within the broader basal ste

297 abnormal intracellular signal processing and intercellular communication within the immune system in

298 ion) and play a central role in coordinating intercellular communication within the local microenviro

299 temporal expression of SCN neuronal state or intercellular communication within the SCN network.

300 However, their function in mediating intercellular communication within the tumor microenviro