Sage Journals: Discover world-class research

Abstract

Chronic hyperplastic candidiasis (CHC) is a rare but severe subtype of oral candidiasis distinguished by its potential malignant transformation and suboptimal response to antifungal therapies. However, the cells and mechanisms that play key roles in this process remain unclear. Therefore, we performed the first single-cell RNA sequencing (scRNA-seq) analysis of CHC-affected tongue tissues to reveal the microenvironmental changes and immunological etiology of CHC. First, the features of CHC lesions manifesting as thickening and hardening nodular lesions, including their pathological and microbiological characteristics, were elucidated. Then, a comprehensive cellular atlas and distinct immune landscape in CHC compared with healthy tissues were characterized using scRNA-seq, highlighting significant modifications in the cell number and functionality of fibroblasts and T/NK cells. Importantly, the central role of fibroblasts in cell-cell interactions in CHC was hinted, and possible ligand-receptor pairs mainly associated with inflammation and carcinogenesis were identified. Moreover, it was revealed that significant functional activation of fibroblasts, related to the activation of the epithelial-mesenchymal transition pathways and increased expression of collagen I, matrix metalloproteinase 1 (MMP1), and MMP2, could be a hallmark of CHC, correlating with CHC’s clinical characteristics of tongue hardening and intense inflammation. Notably, there is sequencing evidence of the recruitment of CD8⁺Tex cells and activation of PD-1 and TIGIT immune checkpoint pathways. Moreover, cDC_LAMP3 cells exhibited high CD274 expression, suggesting immune exhaustion and an increased susceptibility to carcinogenesis. This pioneering study provides valuable insights into CHC pathogenesis and immune responses, enhancing our understanding of potential therapeutic strategies.

Keywords

candida single-cell RNAseq fibroblast(s)epithelial-mesenchymal transition (EMT)mucosal immunity

Get full access to this article

View all access options for this article.

References

Abers

Lionakis

Kontoyiannis

. 2019. Checkpoint inhibition and infectious diseases: a good thing? Trends Mol Med. 25(12):1080–1093.

Bates

Fischer

Abhyankar

Johnson

Guthmiller

Progulske-Fox

Brogden

. 2018. Matrix metalloproteinase response of dendritic cell, gingival epithelial keratinocyte, and T-cell transwell co-cultures treated with Porphyromonas gingivalis hemagglutinin-B. Int J Mol Sci. 19(12):3923.

Campanholle

Ligresti

Gharib

Duffield

. 2013. Cellular mechanisms of tissue fibrosis. 3. Novel mechanisms of kidney fibrosis. Am J Physiol Cell Physiol. 304(7):C591–C603.

Chandra Jena

Kanta Das

Banerjee

Das

Bharadwaj

Majumder

Mandal

. 2021. Paracrine TGF-β1 from breast cancer contributes to chemoresistance in cancer associated fibroblasts via upregulation of the p44/42 MAPK signaling pathway. Biochem Pharmacol. 186:114474.

Cheng

Gao

Xing

Gao

Yang

Qin

Zhang

Ouyang

, et al. 2021. A pan-cancer single-cell transcriptional atlas of tumor infiltrating myeloid cells. Cell. 184(3):792–809.e723.

de Paula-Silva

D’Silva

da Silva

Kapila

. 2009. High matrix metalloproteinase activity is a hallmark of periapical granulomas. J Endod. 35(9):1234–1242.

de Vries

Matzaraki

Bakker

Brugge

Westra

Netea

Franke

Kumar

van der Wijst

MGP

. 2020. Integrating GWAS with bulk and single-cell RNA-sequencing reveals a role for LY86 in the anti-Candida host response. PLoS Pathog. 16(4):e1008408.

Deng

Liang

Liu

Zhang

Liang

Shao

Liu

, et al. 2021. Single-cell immune checkpoint landscape of PBMCs stimulated with Candida albicans. Emerg Microbes Infect. 10(1):1272–1283.

Franco

Patricia

Timo

Claudia

Marcela

2017. Matrix metalloproteinases as regulators of periodontal inflammation. Int J Mol Sci. 18(2):440.

10.

Ghodpage

Kolte

Gupta

2014. Influence of phase I periodontal therapy on levels of matrix metalloproteinase 1 and tissue inhibitor of metalloproteinase 1. Saudi Dent J. 26(4):171–175.

11.

Gilles

Newgreen

Sato

Thompson

. 2005. Matrix metalloproteases and epithelia-to-mesenchymal transition: implications for carcinoma metastasis. In: Savagner

, editor. Rise and fall of epithelial phenotype. Molecular Biology Intelligence Unit. Boston (MA): Springer, Eurekah.com and Kluwer Academic/Plenum Publishers. p. 297–315.

12.

Hellstein

Marek

. 2019. Candidiasis: red and white manifestations in the oral cavity. Head Neck Pathol. 13(1):25–32.

13.

Henderson

Rieder

Wynn

. 2020. Fibrosis: from mechanisms to medicines. Nature. 587(7835):555–566.

14.

Henehan

Montuno

De Benedetto

2017. Doxycycline as an anti-inflammatory agent: updates in dermatology. J Eur Acad Dermatol Venereol. 31(11):1800–1808.

15.

Jin

Wang

Shan

Jin

Zuo

. 2022. Efficacy and safety of tetracyclines for pemphigoid: a systematic review and meta-analysis. Arch Dermatol Res. 314(2):191–201.

16.

Kalluri

Weinberg

. 2009. The basics of epithelial-mesenchymal transition. J Clin Invest. 119(6):1420–1428.

17.

Kühbacher

Henkel

Stevens

Grumaz

Finkelmeier

Burger-Kentischer

Sohn

Rupp

2017. Central role for dermal fibroblasts in skin model protection against candida albicans. J Infect Dis. 215(11):1742–1752.

18.

Kusnadi

Ramírez-Suástegui

Fajardo

Chee

Meckiff

Simon

Pelosi

Seumois

Vijayanand

, et al. 2021. Severely ill COVID-19 patients display impaired exhaustion features in SARS-CoV-2-reactive CD8⁺T cells. Sci Immunol. 6(55):eabe4782.

19.

Luan

Zhao

Hao

Zhou

Han

2016. Epithelial-mesenchymal transition: an emerging target in tissue fibrosis. Exp Biol Med (Maywood). 241(1):1–13.

20.

Lionakis

Drummond

Hohl

. 2023. Immune responses to human fungal pathogens and therapeutic prospects. Nat Rev Immunol. 23(7):433–452.

21.

Lorenzo-Pouso

Pérez-Jardón

Caponio

VCA

Spirito

Chamorro-Petronacci

Álvarez-Calderón-Iglesias

Gándara-Vila

Lo Muzio

Pérez-Sayáns

2022. Oral chronic hyperplastic candidiasis and its potential risk of malignant transformation: a systematic review and prevalence meta-analysis. J Fungi (Basel). 8(10):1093.

22.

Zhang

Jiang

Huang

Wan

Cao

Liu

, et al. 2022. Single-cell RNA sequencing combined with whole exome sequencing reveals the landscape of the immune pathogenic response to chronic mucocutaneous candidiasis with STAT1 GOF mutation. Front Immunol. 13:988766.

23.

Mellinghoff

Thelen

Bruns

Garcia-Marquez

Hartmann

Lammertz

Lehmann

Nowag

Stemler

Wennhold

, et al. 2022. T-cells of invasive candidiasis patients show patterns of T-cell-exhaustion suggesting checkpoint blockade as treatment option. J Infect. 84(2):237–247.

24.

Millsop

Fazel

2016. Oral candidiasis. Clin Dermatol. 34(4):487–494.

25.

Mok

Mody

. 2021. Immune cell degranulation in fungal host defence. J Fungi (Basel). 7(6): 484.

26.

Omachi

Sakai

Hiraiwa

Hamada

Ono

Nakashima

Ishizuka

Matsukawa

Oda

Takamatsu

, et al. 2015. Expression of tenocyte lineage-related factors in regenerated tissue at sites of tendon defect.J Orthop Sci. 20(2):380–389.

27.

Paik

Cho

Tian

Chang

. 2020. Single-cell RNA sequencing in cardiovascular development, disease and medicine. Nat Rev Cardiol. 17(8):457–473.

28.

Richardson

Moyes

. 2015. Adaptive immune responses to candida albicans infection. Virulence. 6(4):327–337.

29.

Sun

Kang

Wang

Yang

Jiang

Wang

Gao

, et al. 2023. Single-cell and spatial dissection of precancerous lesions underlying the initiation process of oral squamous cell carcinoma. Cell Discov. 9(1):28.

30.

Vandenbroucke

Libert

2014. Is there new hope for therapeutic matrix metalloproteinase inhibition? Nat Rev Drug Discov. 13(12):904–927.

31.

Winocur-Arias

Zlotogorski-Hurvitz

Ben-Zvi

Chaushu

Edel

Vered

Kaplan

2023. The profile of chronic hyperplastic candidiasis: a clinico-pathological study. Virchows Arch. 483(4):527–534.

32.

Wykes

Lewin

. 2018. Immune checkpoint blockade in infectious diseases. Nat Rev Immunol. 18(2):91–104.

33.

Xue

Liu

2013. Hepatic regeneration and the epithelial to mesenchymal transition. World J Gastroenterol. 19(9):1380–1386.

34.

Zhang

Wang

Gao

Yan

2021. Malignant transformation and treatment recommendations of chronic hyperplastic candidiasis-a six-year retrospective cohort study. Mycoses. 64(11):1422–1428.

35.

Zheng

Qin

Wang

Xing

Gao

Ren

Wang

Zhang

, et al. 2021. Pan-cancer single-cell landscape of tumor-infiltrating T cells. Science. 374(6574):abe6474.

Supplementary Material

Please find the following supplemental material available below.

For Open Access articles published under a Creative Commons License, all supplemental material carries the same license as the article it is associated with.

For non-Open Access articles published, all supplemental material carries a non-exclusive license, and permission requests for re-use of supplemental material or any part of supplemental material shall be sent directly to the copyright owner as specified in the copyright notice associated with the article.

0.00 MB

3.24 MB

ScRNA-Seq Analysis of Tongue Tissues in Chronic Hyperplastic Candidiasis

Abstract

Keywords

Get full access to this article

References

Supplementary Material