Autophagy facilitates secretion and protects against degeneration of the Harderian gland

Autor: Marion Gröger, Barbara Lengauer, Manfred Fobker, Heidemarie Rossiter, Christine Hartmann, Caterina Barresi, Johannes Pammer, Ulrich Koenig, Guenter P. Resch, Marlene Brandstetter, Gabriele Plenz
Rok vydání: 2014
Předmět:
RFU
relative fluorecent units
MG132
Harderian gland
SQSTM1/p62
Atg7
autophagy related 7
DMSO
dimethyl sulfoxide
Mice
MAP1LC3A/B (LC3)
microtubule-associated protein 1 light chain 3 α/β
PCR
polymerase chain reaction
Lipid droplet
BCA
bicinchoninic acid assay
BODIPY
boron-dipyrromethene fluorescent dye
GFP
green fluorescent protein
PLIN2
perilipin 2
education.field_of_study
Atg12
autophagy related 12
SQSTM1
sequestosome 1/p62
ELISA
enzyme-linked immunosorbent assay
lipotoxicity
KLICK
keratosis lineariz with ichthyosis congenita and sclerosing keratoderma
Aggresome
medicine.anatomical_structure
LD
Lipid drops
lysosome
Proteasome Inhibitors
perilipin 2/adipophilin
multilamellar bodies
PARP
poly (ADP-ribose) polymerase
keratinocytes
FC
free cholesterol
autophagy
TBS-T
Tris buffered saline with Tween 20
MG312
synthetic peptide Z-Leu-Leu-Leu-al
Perilipin 2
Basic Science Research Papers
degenerative diseases
Biology
Sequestosome 1
aggresome
Lysosome
medicine
Animals
f
floxed
Secretion
education
Molecular Biology
Cell Nucleus
LSM
laser scanning microscope
TLC
thin layer chromatography
KRT14
Keratin 14
proteasome inhibitor
Endoplasmic reticulum
cholesterol
ER
edoplasmic reticulum
Epithelial Cells
Cell Biology
Molecular biology
UV
ultraviolet
Vacuoles
aggregates
biology.protein
HaGl
Harderian gland
ORO
oil red O
palmitate
BSA
bovine serum albumin
Lysosomes
Cre
Cre recombinase
Zdroj: Autophagy
ISSN: 1554-8635
1554-8627
DOI: 10.4161/15548627.2014.978221
Popis: The epithelial derived Harderian gland consists of 2 types of secretory cells. The more numerous type A cells are responsible for the secretion of lipid droplets, while type B cells produce dark granules of multilamellar bodies. The process of autophagy is constitutively active in the Harderian gland, as confirmed by our analysis of LC3 processing in GFP-LC3 transgenic mice. This process is compromised by epithelial deletion of Atg7. Morphologically, the Atg7 mutant glands are hypotrophic and degenerated, with highly vacuolated cells and pyknotic nuclei. The mutant glands accumulate lipid droplets coated with PLIN2 (perilipin 2) and contain deposits of cholesterol, ubiquitinated proteins, SQSTM1/p62 (sequestosome 1) positive aggregates and other metabolic products such as porphyrin. Immunofluorescence stainings show that distinct cells strongly aggregate both proteins and lipids. Electron microscopy of the Harderian glands reveals that its organized structure is compromised, and the presence of large intracellular lipid droplets and heterologous aggregates. We attribute the occurrence of large vacuoles to a malfunction in the formation of multilamellar bodies found in the less abundant type B Harderian gland cells. This defect causes the formation of large tertiary lysosomes of heterologous content and is accompanied by the generation of tight lamellar stacks of endoplasmic reticulum in a pseudo-crystalline form. To test the hypothesis that lipid and protein accumulation is the cause for the degeneration in autophagy-deficient Harderian glands, epithelial cells were treated with a combination of the proteasome inhibitor and free fatty acids, to induce aggregation of misfolded proteins and lipid accumulation, respectively. The results show that lipid accumulation indeed enhanced the toxicity of misfolded proteins and that this was even more pronounced in autophagy-deficient cells. Thus, we conclude autophagy controls protein and lipid catabolism and anabolism to facilitate bulk production of secretory vesicles of the Harderian gland.
Databáze: OpenAIRE
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