Polymeric immunoglobulin receptor traffics through two distinct apically targeted pathways in primary lacrimal gland acinar cells

Xu, Shi‐Hai; Ma, Linlin; Evans, Eunbyul; Okamoto, Curtis T.

doi:10.1242/jcs.122242

Cited by 16 publications

(19 citation statements)

References 62 publications

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“…The abundant staining of the vesicles in both acinar and ductal cells could indicate that, at these locations, the vesicular trafficking of the melatonin receptor is involved in the transport of the hormone, internalised at the cell base and released from the apex. This phenomenon of transcytosis has been described for both IgA and transferrin in acinar cells (Nashida et al 2009;Xu et al 2013). The transcytosis of melatonin bound to its receptor might parallel the synthesis of melatonin in ductal cells, as reported by Shimozuma et al (2011).…”

Section: Discussionsupporting

confidence: 54%

“…In addition, in the acinar cells, the vesicles may fuse with the secretory granules to discharge melatonin by the major regulated secretion into the lumen of the glands (Castle & Castle, 1996). The two pathways may co-exist (Xu et al 2013). We assume that, once secreted apically, melatonin is detached from its receptor and becomes a component of the saliva (Kennaway & Voultsios, 1998;Cutando et al 2007), while the receptor is immediately re-absorbed.…”

Section: Discussionmentioning

confidence: 99%

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Subcellular distribution of melatonin receptors in human parotid glands

et al. 2013

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The hormone melatonin influences oral health through a variety of actions, such as anti-inflammatory, antioxidant, immunomodulatory and antitumour. Many of these melatonin functions are mediated by a family of membrane receptors expressed in the oral epithelium and salivary glands. Using immunoblotting and immunohistochemistry, recent studies have shown that the melatonin membrane receptors, MT1 and MT2, are present in rat and human salivary glands. To date, no investigation has dealt with the ultrastructural distribution of the melatonin receptors. This was the aim of the present study, using the immunogold method applied to the human parotid gland. Reactivity to MT1 and, with less intensity, to MT2 appeared in the secretory granules of acinar cells and in the cytoplasmic vesicles of both acinar and ductal cells. Plasma membranes were also stained, albeit slightly. The peculiar intracytoplasmic distribution of these receptors may indicate that there is an uptake/transport system for melatonin from the circulation into the saliva.

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Section: Discussionsupporting

confidence: 54%

Section: Discussionmentioning

confidence: 99%

Subcellular distribution of melatonin receptors in human parotid glands

et al. 2013

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“…Previous studies from our laboratory have identified at least three pathways for apically directed secretion of tear proteins in LGACs: the Rab11a/MyosinVb mediated transcytotic pathway [32] and the Rab3D and/or Rab27b regulated secretory pathways [40–42]. Rab3D and Rab27b are predominantly localized to distinct populations of secretory vesicles in the subapical region of LGAC that originate from the trans-Golgi network, although a subpopulation expressing both Rab proteins may exist.…”

Section: Resultsmentioning

confidence: 99%

“…We have shown that expression of dominant-negative (DN) myosin-Vb tail directly impairs the movement of transcytotic vesicles and their cargo from Rab11a-enriched apical endosomes to the apical membrane, thus inhibiting transcytosis in LGACs [32]. The Rab11a-enriched apical endosome is well established in the trafficking of another transcytotic cargo receptor, the polymeric immunoglobulin A receptor, responsible for transcytosis of dimeric IgA into tears [42]. In Figure 5, LGACs were transduced with recombinant adenovirus encoding GFP-actin (green) with or without mCherry-myosin Vb tail DN (red), an N-terminal mCherry fluorescent protein fused to a truncated mutant of myosin Vb motor, which associates with vesicle cargo but does not have motor function.…”

Section: Resultsmentioning

confidence: 99%

Tear-mediated delivery of nanoparticles through transcytosis of the lacrimal gland

Hsueh

Edman

Sun

et al. 2015

Journal of Controlled Release

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Rapid clearance from the tears presents a formidable obstacle to the delivery of peptide drugs to the eye surface. This impedes therapies for ocular infections, wound healing, and dry-eye disease that affect the vision of millions worldwide. To overcome this challenge, this manuscript explores a novel strategy to reach the ocular surface via receptor-mediated transcytosis across the lacrimal gland (LG), which produces the bulk of human tears. The LG abundantly expresses the coxsackievirus and adenovirus receptor (CAR); furthermore, we recently reported a peptide-based nanoparticle (KSI) that targets CAR on liver cells. This manuscript reports the unexpected finding that KSI both targets and transcytoses into the LG acinar lumen, which drains to tear ducts. When followed using ex vivo live cell imaging KSI rapidly accumulates in lumen formed by LG acinar cells. LG transduction with a Myosin Vb tail, which is dominant negative towards transcytosis, inhibits lumenal accumulation. Transcytosis of KSI was confirmed in vivo by confocal and TEM imaging of LG tissue following administration of KSI nanoparticles. These findings suggest that it is possible to target nanomaterials to the tears by targeting certain receptors on the LG. This design strategy represents a new opportunity to overcome barriers to ocular delivery.

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“…The pIgR which mediate the transepithelial transport of polymeric IgA and secretion of SIgA is expressed by different type of epithelial cells and the resolution of its crystal structure provides new information about multiple conformations used by the secretory component to protect mammals from pathogens (35). The transepithelial trafficking of the pIgR was shown to involve both the transcytotic pathway and one arm of the regulated secretory pathway (36). Factors which participate in the complex regulation of pIgR expression and transcytosis also contribute to optimizing SIgA production and mucosal immunity (37, 38).…”

Section: Iga and Secretory Igamentioning

confidence: 99%

Inducing Mucosal IgA: A Challenge for Vaccine Adjuvants and Delivery Systems

Boyaka

2017

The Journal of Immunology

185

165

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Mucosal IgA or secretory IgA (SIgA) are structurally equipped to resist chemical degradation in the harsh environment of mucosal surfaces and the enzymes of host or microbial origin. Production of SIgA is finely regulated and distinct T-independent and T-dependent mechanisms orchestrate immunoglobulin heavy chain α class switching and SIgA responses against commensal and pathogenic microbes. Most infectious pathogens enter the host via mucosal surfaces. To provide a first line of protection at these entry ports, vaccines are being developed to induce pathogen-specific SIgA in addition to systemic immunity achieved by injected vaccines. Mucosal or epicutaneous delivery of vaccines helps target the inductive sites for IgA responses. The efficacy of such vaccines relies on the identification/engineering of vaccine adjuvants capable of supporting the development of SIgA alongside systemic immunity and delivery systems that improve vaccine delivery to the targeted anatomic sites and immune cells.

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Polymeric immunoglobulin receptor traffics through two distinct apically targeted pathways in primary lacrimal gland acinar cells

Cited by 16 publications

References 62 publications

Subcellular distribution of melatonin receptors in human parotid glands

Subcellular distribution of melatonin receptors in human parotid glands

Tear-mediated delivery of nanoparticles through transcytosis of the lacrimal gland

Inducing Mucosal IgA: A Challenge for Vaccine Adjuvants and Delivery Systems

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