AP-2-Dependent Endocytic Recycling of the Chitin Synthase Chs3 Regulates Polarized Growth in Candida albicans

H. C. Knafler; I. I. Smaczynska-de Rooij; L. A. Walker; K. K. Lee; N. A. R. Gow; K. R. Ayscough

doi:10.1128/mBio.02421-18

AP-2-Dependent Endocytic Recycling of the Chitin Synthase Chs3 Regulates Polarized Growth in Candida albicans

H. C. Knafler, I. I. Smaczynska-de Rooij, L. A. Walker, K. K. Lee, N. A. R. Gow, K. R. Ayscough^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

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Abstract

The human fungal pathogen Candida albicans is known to require endocytosis to enable its adaptation to diverse niches and to maintain its highly polarized hyphal growth phase. While studies have identified changes in transcription leading to the synthesis and secretion of new proteins to facilitate hyphal growth, effective maintenance of hyphae also requires concomitant removal or relocalization of other cell surface molecules. The key molecules which must be removed from the cell surface, and the mechanisms behind this, have, however, remained elusive. In this study, we show that the AP-2 endocytic adaptor complex is required for the internalization of the major cell wall biosynthesis enzyme Chs3. We demonstrate that this interaction is mediated by the AP-2 mu subunit (Apm4) YXXΦ binding domain. We also show that in the absence of Chs3 recycling via AP-2, cells have abnormal cell wall composition, defective polarized cell wall deposition, and morphological defects. The study also highlights key distinctions between endocytic requirements of growth at yeast buds compared to that at hyphal tips and different requirements of AP-2 in maintaining the polarity of mannosylated proteins and ergosterol at hyphal tips. Together, our findings highlight the importance of correct cell wall deposition in cell shape maintenance and polarized growth and the key regulatory role of endocytic recycling via the AP-2 complex. IMPORTANCE Candida albicans is a human commensal yeast that can cause significant morbidity and mortality in immunocompromised individuals. Within humans, C. albicans can adopt different morphologies as yeast or filamentous hyphae and can occupy different niches with distinct temperatures, pHs, CO₂ levels, and nutrient availability. Both morphological switching and growth in different environments require cell surface remodelling, which involves both the addition of newly synthesized proteins as well as the removal of other proteins. In our study, we demonstrate the importance of an adaptor complex AP-2 in internalizing and recycling a specific cell surface enzyme to maintain effective polarized hyphal growth. Defects in formation of the complex or in its ability to interact directly with cargo inhibit enzyme uptake and lead to defective cell walls and aberrant hyphal morphology. Our data indicate that the AP-2 adaptor plays a central role in regulating cell surface composition in Candida.

Original language	English
Article number	e02421-18
Number of pages	20
Journal	mBio
Volume	10
Issue number	2
Early online date	19 Mar 2019
DOIs	https://doi.org/10.1128/mBio.02421-18
Publication status	Published - 19 Mar 2019

Bibliographical note

We thank Andrew Peden, Simon Johnston, and Josh Parker for critical reading of the manuscript. We also thank Gillian Milne at the Microscopy and Histology Core Facility at the University of Aberdeen for expert assistance with TEM and Craig Murdoch at the School of Clinical Dentistry, University of Sheffield, for training and support in carrying out the biofilm assays.

Imaging was undertaken in part at the Wolfson Light Microscopy Facility at the University of Sheffield, supported by grant number MR/K015753/1. H.C.K. is funded by the BBSRC White Rose DTP to the Universities of Sheffield, Leeds and York (BB/M011151/1); I.I.S.-D.R. is funded by BBSRC grant BB/N007581/1. N.A.R.G. was supported by The Wellcome Trust (101873, 200208, 097377), and L.A.W. and K.K.L. were supported by the MRC Centre for Medical Mycology (MR/N006364/1).

Keywords

Candida albicans
cell polarity
cell wall
endocytosis
membrane trafficking
yeasts

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Final published version, 4.01 MBLicence: CC BY

Cite this

@article{45f3c358b2fc424db3c889bc7451231a,

title = "AP-2-Dependent Endocytic Recycling of the Chitin Synthase Chs3 Regulates Polarized Growth in Candida albicans",

abstract = "The human fungal pathogen Candida albicans is known to require endocytosis to enable its adaptation to diverse niches and to maintain its highly polarized hyphal growth phase. While studies have identified changes in transcription leading to the synthesis and secretion of new proteins to facilitate hyphal growth, effective maintenance of hyphae also requires concomitant removal or relocalization of other cell surface molecules. The key molecules which must be removed from the cell surface, and the mechanisms behind this, have, however, remained elusive. In this study, we show that the AP-2 endocytic adaptor complex is required for the internalization of the major cell wall biosynthesis enzyme Chs3. We demonstrate that this interaction is mediated by the AP-2 mu subunit (Apm4) YXXΦ binding domain. We also show that in the absence of Chs3 recycling via AP-2, cells have abnormal cell wall composition, defective polarized cell wall deposition, and morphological defects. The study also highlights key distinctions between endocytic requirements of growth at yeast buds compared to that at hyphal tips and different requirements of AP-2 in maintaining the polarity of mannosylated proteins and ergosterol at hyphal tips. Together, our findings highlight the importance of correct cell wall deposition in cell shape maintenance and polarized growth and the key regulatory role of endocytic recycling via the AP-2 complex. IMPORTANCE Candida albicans is a human commensal yeast that can cause significant morbidity and mortality in immunocompromised individuals. Within humans, C. albicans can adopt different morphologies as yeast or filamentous hyphae and can occupy different niches with distinct temperatures, pHs, CO2 levels, and nutrient availability. Both morphological switching and growth in different environments require cell surface remodelling, which involves both the addition of newly synthesized proteins as well as the removal of other proteins. In our study, we demonstrate the importance of an adaptor complex AP-2 in internalizing and recycling a specific cell surface enzyme to maintain effective polarized hyphal growth. Defects in formation of the complex or in its ability to interact directly with cargo inhibit enzyme uptake and lead to defective cell walls and aberrant hyphal morphology. Our data indicate that the AP-2 adaptor plays a central role in regulating cell surface composition in Candida.",

keywords = "Candida albicans, cell polarity, cell wall, endocytosis, membrane trafficking, yeasts",

author = "Knafler, {H. C.} and {Smaczynska-de Rooij}, {I. I.} and Walker, {L. A.} and Lee, {K. K.} and Gow, {N. A. R.} and Ayscough, {K. R.}",

note = "We thank Andrew Peden, Simon Johnston, and Josh Parker for critical reading of the manuscript. We also thank Gillian Milne at the Microscopy and Histology Core Facility at the University of Aberdeen for expert assistance with TEM and Craig Murdoch at the School of Clinical Dentistry, University of Sheffield, for training and support in carrying out the biofilm assays. Imaging was undertaken in part at the Wolfson Light Microscopy Facility at the University of Sheffield, supported by grant number MR/K015753/1. H.C.K. is funded by the BBSRC White Rose DTP to the Universities of Sheffield, Leeds and York (BB/M011151/1); I.I.S.-D.R. is funded by BBSRC grant BB/N007581/1. N.A.R.G. was supported by The Wellcome Trust (101873, 200208, 097377), and L.A.W. and K.K.L. were supported by the MRC Centre for Medical Mycology (MR/N006364/1).",

year = "2019",

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doi = "10.1128/mBio.02421-18",

language = "English",

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T1 - AP-2-Dependent Endocytic Recycling of the Chitin Synthase Chs3 Regulates Polarized Growth in Candida albicans

AU - Knafler, H. C.

AU - Smaczynska-de Rooij, I. I.

AU - Walker, L. A.

AU - Lee, K. K.

AU - Gow, N. A. R.

AU - Ayscough, K. R.

N1 - We thank Andrew Peden, Simon Johnston, and Josh Parker for critical reading of the manuscript. We also thank Gillian Milne at the Microscopy and Histology Core Facility at the University of Aberdeen for expert assistance with TEM and Craig Murdoch at the School of Clinical Dentistry, University of Sheffield, for training and support in carrying out the biofilm assays. Imaging was undertaken in part at the Wolfson Light Microscopy Facility at the University of Sheffield, supported by grant number MR/K015753/1. H.C.K. is funded by the BBSRC White Rose DTP to the Universities of Sheffield, Leeds and York (BB/M011151/1); I.I.S.-D.R. is funded by BBSRC grant BB/N007581/1. N.A.R.G. was supported by The Wellcome Trust (101873, 200208, 097377), and L.A.W. and K.K.L. were supported by the MRC Centre for Medical Mycology (MR/N006364/1).

PY - 2019/3/19

Y1 - 2019/3/19

N2 - The human fungal pathogen Candida albicans is known to require endocytosis to enable its adaptation to diverse niches and to maintain its highly polarized hyphal growth phase. While studies have identified changes in transcription leading to the synthesis and secretion of new proteins to facilitate hyphal growth, effective maintenance of hyphae also requires concomitant removal or relocalization of other cell surface molecules. The key molecules which must be removed from the cell surface, and the mechanisms behind this, have, however, remained elusive. In this study, we show that the AP-2 endocytic adaptor complex is required for the internalization of the major cell wall biosynthesis enzyme Chs3. We demonstrate that this interaction is mediated by the AP-2 mu subunit (Apm4) YXXΦ binding domain. We also show that in the absence of Chs3 recycling via AP-2, cells have abnormal cell wall composition, defective polarized cell wall deposition, and morphological defects. The study also highlights key distinctions between endocytic requirements of growth at yeast buds compared to that at hyphal tips and different requirements of AP-2 in maintaining the polarity of mannosylated proteins and ergosterol at hyphal tips. Together, our findings highlight the importance of correct cell wall deposition in cell shape maintenance and polarized growth and the key regulatory role of endocytic recycling via the AP-2 complex. IMPORTANCE Candida albicans is a human commensal yeast that can cause significant morbidity and mortality in immunocompromised individuals. Within humans, C. albicans can adopt different morphologies as yeast or filamentous hyphae and can occupy different niches with distinct temperatures, pHs, CO2 levels, and nutrient availability. Both morphological switching and growth in different environments require cell surface remodelling, which involves both the addition of newly synthesized proteins as well as the removal of other proteins. In our study, we demonstrate the importance of an adaptor complex AP-2 in internalizing and recycling a specific cell surface enzyme to maintain effective polarized hyphal growth. Defects in formation of the complex or in its ability to interact directly with cargo inhibit enzyme uptake and lead to defective cell walls and aberrant hyphal morphology. Our data indicate that the AP-2 adaptor plays a central role in regulating cell surface composition in Candida.

AB - The human fungal pathogen Candida albicans is known to require endocytosis to enable its adaptation to diverse niches and to maintain its highly polarized hyphal growth phase. While studies have identified changes in transcription leading to the synthesis and secretion of new proteins to facilitate hyphal growth, effective maintenance of hyphae also requires concomitant removal or relocalization of other cell surface molecules. The key molecules which must be removed from the cell surface, and the mechanisms behind this, have, however, remained elusive. In this study, we show that the AP-2 endocytic adaptor complex is required for the internalization of the major cell wall biosynthesis enzyme Chs3. We demonstrate that this interaction is mediated by the AP-2 mu subunit (Apm4) YXXΦ binding domain. We also show that in the absence of Chs3 recycling via AP-2, cells have abnormal cell wall composition, defective polarized cell wall deposition, and morphological defects. The study also highlights key distinctions between endocytic requirements of growth at yeast buds compared to that at hyphal tips and different requirements of AP-2 in maintaining the polarity of mannosylated proteins and ergosterol at hyphal tips. Together, our findings highlight the importance of correct cell wall deposition in cell shape maintenance and polarized growth and the key regulatory role of endocytic recycling via the AP-2 complex. IMPORTANCE Candida albicans is a human commensal yeast that can cause significant morbidity and mortality in immunocompromised individuals. Within humans, C. albicans can adopt different morphologies as yeast or filamentous hyphae and can occupy different niches with distinct temperatures, pHs, CO2 levels, and nutrient availability. Both morphological switching and growth in different environments require cell surface remodelling, which involves both the addition of newly synthesized proteins as well as the removal of other proteins. In our study, we demonstrate the importance of an adaptor complex AP-2 in internalizing and recycling a specific cell surface enzyme to maintain effective polarized hyphal growth. Defects in formation of the complex or in its ability to interact directly with cargo inhibit enzyme uptake and lead to defective cell walls and aberrant hyphal morphology. Our data indicate that the AP-2 adaptor plays a central role in regulating cell surface composition in Candida.

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AP-2-Dependent Endocytic Recycling of the Chitin Synthase Chs3 Regulates Polarized Growth in Candida albicans

Abstract

Bibliographical note

Keywords

UN SDGs

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Microscopy and Histology

Cite this

AP-2-Dependent Endocytic Recycling of the Chitin Synthase Chs3 Regulates Polarized Growth in Candida albicans

Abstract

Bibliographical note

Keywords

UN SDGs

Access to Document

Other files and links

Fingerprint

Equipment

Microscopy and Histology

Cite this