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International Journal of Radiation Biology Volume 99, 2023 - Issue 10
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Function of stem cells in radiation-induced damage

Yingtong Liua School of Medical and Life Sciences, Chengdu University of Traditional Chinese Medicine, and Cancer Center, West China Hospital of Sichuan University, Chengdu, Sichuan, ChinaView further author information
,
Zheran Liub Department of Biotherapy, Cancer Center, West China Hospital of Sichuan University, Chengdu, Sichuan, ChinaView further author information
,
Liqiang Huc West China-California Research Center for Predictive Intervention Medicine, West China Hospital, Sichuan University, Chengdu, ChinaView further author information
,
Ling Heb Department of Biotherapy, Cancer Center, West China Hospital of Sichuan University, Chengdu, Sichuan, ChinaView further author information
,
Lianlian Yangb Department of Biotherapy, Cancer Center, West China Hospital of Sichuan University, Chengdu, Sichuan, ChinaView further author information
,
Zijian Qinb Department of Biotherapy, Cancer Center, West China Hospital of Sichuan University, Chengdu, Sichuan, ChinaView further author information
,
Yuping Xied Department of Oncology, Chengdu First People’s Hospital, Chengdu, Sichuan, ChinaCorrespondence[email protected]
View further author information
,
Xingchen Pengb Department of Biotherapy, Cancer Center, West China Hospital of Sichuan University, Chengdu, Sichuan, ChinaCorrespondence[email protected]
View further author information
&
Lei Daie State Key Laboratory of Biotherapy/Collaborative Innovation Center for Biotherapy, West China Hospital, Sichuan University, Chengdu, Sichuan, ChinaCorrespondence[email protected]
View further author information
 show all
Pages 1483-1494 | Received 28 Sep 2022, Accepted 27 Feb 2023, Published online: 23 Mar 2023

References

  • Amano O, Mizobe K, Bando Y, Sakiyama K. 2012. Anatomy and histology of rodent and human major salivary glands—overview of the Japan Salivary Gland Society-sponsored workshop. Acta Histochem Cytochem. 45(5):241–250.
  • Arai F, Suda T. 2007. Maintenance of quiescent hematopoietic stem cells in the osteoblastic niche. Ann N Y Acad Sci. 1106(1):41–53.
  • Asano J, Sato T, Ichinose S, Kajita M, Onai N, Shimizu S, Ohteki T. 2017. Intrinsic autophagy is required for the maintenance of intestinal stem cells and for irradiation-induced intestinal regeneration. Cell Rep. 20(5):1050–1060.
  • Aure MH, Konieczny SF, Ovitt CE. 2015. Salivary gland homeostasis is maintained through acinar cell self-duplication. Dev Cell. 33(2):231–237.
  • Barker N, van Es JH, Kuipers J, Kujala P, van den Born M, Cozijnsen M, Haegebarth A, Korving J, Begthel H, Peters PJ, et al. 2007. Identification of stem cells in small intestine and colon by marker gene Lgr5. Nature. 449(7165):1003–1007.
  • Baulies A, Angelis N, Li VSW. 2020. Hallmarks of intestinal stem cells. Development. 147(15):dev182675.
  • Benoit YD, Lussier C, Ducharme P-A, Sivret S, Schnapp LM, Basora N, Beaulieu J-F. 2009. Integrin α8β1 regulates adhesion, migration and proliferation of human intestinal crypt cells via a predominant RhoA/ROCK-dependent mechanism. Biol Cell. 101(12):695–708.
  • Beumer J, Clevers H. 2021. Cell fate specification and differentiation in the adult mammalian intestine. Nat Rev Mol Cell Biol. 22(1):39–53.
  • Bhanja P, Norris A, Gupta-Saraf P, Hoover A, Saha S. 2018. BCN057 induces intestinal stem cell repair and mitigates radiation-induced intestinal injury. Stem Cell Res Ther. 9(1):26.
  • Birchenough GMH, Nyström EEL, Johansson MEV, Hansson GC. 2016. A sentinel goblet cell guards the colonic crypt by triggering Nlrp6-dependent Muc2 secretion. Science. 352(6293):1535–1542.
  • Biton M, Haber AL, Rogel N, Burgin G, Beyaz S, Schnell A, Ashenberg O, Su C-W, Smillie C, Shekhar K, et al. 2018. T helper cell cytokines modulate intestinal stem cell renewal and differentiation. Cell. 175(5):1307.e22–1320.e22.
  • Bonnans C, Chou J, Werb Z. 2014. Remodelling the extracellular matrix in development and disease. Nat Rev Mol Cell Biol. 15(12):786–801.
  • Chibly AM, Aure MH, Patel VN, Hoffman MP. 2022. Salivary gland function, development and regeneration. Physiol Rev. 102(3):1495–1552.
  • Clevers H. 2015. What is an adult stem cell? Science. 350(6266):1319–1320.
  • Coppes R, Stokman M. 2011. Stem cells and the repair of radiation-induced salivary gland damage: stem cells to repair irradiated salivary glands. Oral Dis. 17(2):143–153.
  • Criscimanna A, Speicher JA, Houshmand G, Shiota C, Prasadan K, Ji B, Logsdon CD, Gittes GK, Esni F. 2011. Duct cells contribute to regeneration of endocrine and acinar cells following pancreatic damage in adult mice. Gastroenterology. 141(4):1451.e6–1462.e6.
  • D’Alessio S, Ungaro F, Noviello D, Lovisa S, Peyrin-Biroulet L, Danese S. 2022. Revisiting fibrosis in inflammatory bowel disease: the gut thickens. Nat Rev Gastroenterol Hepatol. 19(3):169–184.
  • Datta K, Suman S, Kallakury BVS, Fornace AJ. 2012. Exposure to heavy ion radiation induces persistent oxidative stress in mouse intestine. PLoS One. 7(8):e42224.
  • Denny PC, Liu P, Denny PA. 1999. Evidence of a phenotypically determined ductal cell lineage in mouse salivary glands. Anat Rec. 256(1):84–90.
  • de Vathaire F, El-Fayech C, Ben Ayed FF, Haddy N, Guibout C, Winter D, Thomas-Teinturier C, Veres C, Jackson A, Pacquement H, et al. 2012. Radiation dose to the pancreas and risk of diabetes mellitus in childhood cancer survivors: a retrospective cohort study. Lancet Oncol. 13(10):1002–1010.
  • Dong L-H, Jiang Y-Y, Liu Y-J, Cui S, Xia C-C, Qu C, Jiang X, Qu Y-Q, Chang P-Y, Liu F. 2015. The anti-fibrotic effects of mesenchymal stem cells on irradiated lungs via stimulating endogenous secretion of HGF and PGE2. Sci Rep. 5(1):8713.
  • Duleba M, Yamamoto Y, Neupane R, Rao W, Xie J, Qi Y, Liew A-A, Niroula S, Zhang Y, Mahalingam R, et al. 2020. Cloning of ground-state intestinal stem cells from endoscopic biopsy samples. Nat Protoc. 15(5):1612–1627.
  • Elaldi R, Roussel L-M, Gal J, Scheller B, Chamorey E, Schiappa R, Lasne-Cardon A, Louis M-Y, Culié D, Dassonville O, et al. 2021. Correlations between long-term quality of life and patient needs and concerns following head and neck cancer treatment and the impact of psychological distress. A multicentric cross-sectional study. Eur Arch Otorhinolaryngol. 278(7):2437–2445.
  • Eriguchi Y, Nakamura K, Yokoi Y, Sugimoto R, Takahashi S, Hashimoto D, Teshima T, Ayabe T, Selsted ME, Ouellette AJ. 2018. Essential role of IFN-γ in T cell-associated intestinal inflammation. JCI Insight. 3(18):121886.
  • Frenkel ES, Ribbeck K. 2015. Salivary mucins in host defense and disease prevention. J Oral Microbiol. 7(1):29759.
  • Gehart H, Clevers H. 2019. Tales from the crypt: new insights into intestinal stem cells. Nat Rev Gastroenterol Hepatol. 16(1):19–34.
  • Groussard C, Morel I, Chevanne M, Monnier M, Cillard J, Delamarche A. 2000. Free radical scavenging and antioxidant effects of lactate ion: an in vitro study. J Appl Physiol. 89(1):169–175.
  • Gulati GS, Sikandar SS, Wesche DJ, Manjunath A, Bharadwaj A, Berger MJ, Ilagan F, Kuo AH, Hsieh RW, Cai S, et al. 2020. Single-cell transcriptional diversity is a hallmark of developmental potential. Science. 367(6476):405–411.
  • Günther C, Winner B, Neurath MF, Stappenbeck TS. 2022. Organoids in gastrointestinal diseases: from experimental models to clinical translation. Gut. 71(9):1892–1908.
  • Gurley KE, Ashley AK, Moser RD, Kemp CJ. 2017. Synergy between Prkdc and Trp53 regulates stem cell proliferation and GI-ARS after irradiation. Cell Death Differ. 24(11):1853–1860.
  • Hall WA, Paulson E, Li XA, Erickson B, Schultz C, Tree A, Awan M, Low DA, McDonald BA, Salzillo T, et al. 2022. Magnetic resonance linear accelerator technology and adaptive radiation therapy: an overview for clinicians. CA A Cancer J Clin. 72(1):34–56.
  • Hattori K, Heissig B, Wu Y, Dias S, Tejada R, Ferris B, Hicklin DJ, Zhu Z, Bohlen P, Witte L, et al. 2002. Placental growth factor reconstitutes hematopoiesis by recruiting VEGFR1(+) stem cells from bone-marrow microenvironment. Nat Med. 8(8):841–849.
  • Hauer-Jensen M, Denham JW, Andreyev HJN. 2014. Radiation enteropathy—pathogenesis, treatment and prevention. Nat Rev Gastroenterol Hepatol. 11(8):470–479.
  • Hou Q, Ye L, Huang L, Yu Q. 2017. The research progress on intestinal stem cells and its relationship with intestinal microbiota. Front Immunol. 8(599).
  • Hu X, Huang W. 2020. Protecting the psychological well-being of healthcare workers affected by the COVID-19 outbreak: Perspectives from China. Nurs Health Sci. 22(3):837–838.
  • I T, Sumita Y, Yoshida T, Honma R, Iwatake M, Raudales JLM, Shizuno T, Kuroshima S, Masuda H, Seki M, et al. 2019. Anti-inflammatory and vasculogenic conditioning of peripheral blood mononuclear cells reinforces their therapeutic potential for radiation-injured salivary glands. Stem Cell Res Ther. 10(1):304.
  • Inada A, Nienaber C, Katsuta H, Fujitani Y, Levine J, Morita R, Sharma A, Bonner-Weir S. 2008. Carbonic anhydrase II-positive pancreatic cells are progenitors for both endocrine and exocrine pancreas after birth. Proc Natl Acad Sci USA. 105(50):19915–19919.
  • Iscove NN, Nawa K. 1997. Hematopoietic stem cells expand during serial transplantation in vivo without apparent exhaustion. Curr Biol. 7(10):805–808.
  • Jones RM, Luo L, Ardita CS, Richardson AN, Kwon YM, Mercante JW, Alam A, Gates CL, Wu H, Swanson PA, et al. 2013. Symbiotic lactobacilli stimulate gut epithelial proliferation via Nox-mediated generation of reactive oxygen species: symbiotic lactobacilli stimulate gut epithelial proliferation. EMBO J. 32(23):3017–3028.
  • Kaiko GE, Ryu SH, Koues OI, Collins PL, Solnica-Krezel L, Pearce EJ, Pearce EL, Oltz EM, Stappenbeck TS. 2016. The colonic crypt protects stem cells from microbiota-derived metabolites. Cell. 167(4):1137.
  • Keswani SG, Balaji S, Le LD, Leung A, Parvadia JK, Frischer J, Yamano S, Taichman N, Crombleholme TM. 2013. Role of salivary vascular endothelial growth factor (VEGF) in palatal mucosal wound healing: role of salivary VEGF in mucosal repair. Wound Repair Regen. 21(4):554–562.
  • Kim BH, Jung H-W, Seo SH, Shin H, Kwon J, Suh JM. 2018. Synergistic actions of FGF2 and bone marrow transplantation mitigate radiation-induced intestinal injury. Cell Death Dis. 9(3):383.
  • Kim HS, Lee C, Kim WH, Maeng YH, Jang BG. 2017. Expression profile of intestinal stem cell markers in colitis-associated carcinogenesis. Sci Rep. 7(1):6533.
  • Kimoto M, Yura Y, Kishino M, Toyosawa S, Ogawa Y. 2008. Label-retaining cells in the rat submandibular gland. J Histochem Cytochem. 56(1):15–24.
  • Kumar S, Suman S, Fornace AJ, Datta K. 2019. Intestinal stem cells acquire premature senescence and senescence associated secretory phenotype concurrent with persistent DNA damage after heavy ion radiation in mice. Aging. 11(12):4145–4158.
  • Kurokawa K, Hayakawa Y, Koike K. 2020. Plasticity of intestinal epithelium: stem cell niches and regulatory signals. IJMS. 22(1):357.
  • Kwak S-Y, Shim S, Park S, Kim H, Lee S-J, Kim M-J, Jang W-S, Kim Y, Jang H. 2021. Ghrelin reverts intestinal stem cell loss associated with radiation-induced enteropathy by activating notch signaling. Phytomedicine. 81(153424).
  • Lamas B, Richard ML, Leducq V, Pham H-P, Michel M-L, Da Costa G, Bridonneau C, Jegou S, Hoffmann TW, Natividad JM, et al. 2016. CARD9 impacts colitis by altering gut microbiota metabolism of tryptophan into aryl hydrocarbon receptor ligands. Nat Med. 22(6):598–605.
  • Lee Y-S, Kim T-Y, Kim Y, Lee S-H, Kim S, Kang SW, Yang J-Y, Baek I-J, Sung YH, Park Y-Y, et al. 2018. Microbiota-derived lactate accelerates intestinal stem-cell-mediated epithelial development cell. Cell Host Microbe. 24(6):833.e6–846.e6.
  • Leonetti D, Estéphan H, Ripoche N, Dubois N, Aguesse A, Gouard S, Brossard L, Chiavassa S, Corre I, Pecqueur C, et al. 2020. Secretion of acid sphingomyelinase and ceramide by endothelial cells contributes to radiation-induced intestinal toxicity. Cancer Res. 80(12):2651–2662.
  • Levy A, Stedman A, Deutsch E, Donnadieu F, Virgin HW, Sansonetti PJ, Nigro G. 2020. Innate immune receptor NOD2 mediates LGR5+ intestinal stem cell protection against ROS cytotoxicity via mitophagy stimulation. Proc Natl Acad Sci U S A. 117(4):1994–2003.
  • Li B, Xing Y, Gan Y, He J, Hua H. 2021. Labial gland-derived mesenchymal stem cells and their exosomes ameliorate murine Sjögren’s syndrome by modulating the balance of Treg and Th17 cells. Stem Cell Res Ther. 12(1):478.
  • Li D-Q, Kim S, Li J-M, Gao Q, Choi J, Bian F, Hu J, Zhang Y, Li J, Lu R, et al. 2021. Single-cell transcriptomics identifies limbal stem cell population and cell types mapping its differentiation trajectory in limbal basal epithelium of human cornea. Ocular Surf. 20:20–32.
  • Li J, Liu Y, Jiang J, Peng X, Hu X. 2021. Effect of telehealth interventions on quality of life in cancer survivors: A systematic review and meta-analysis of randomized controlled trials. Int J Nurs Stud. 122:103970.
  • Lin Y, Krogh-Andersen K, Hammarström L, Marcotte H. 2017. Lactobacillus delivery of bioactive interleukin-22. Microb Cell Fact. 16:148.
  • Lindemans CA, Calafiore M, Mertelsmann AM, O'Connor MH, Dudakov JA, Jenq RR, Velardi E, Young LF, Smith OM, Lawrence G, et al. 2015. Interleukin-22 promotes intestinal-stem-cell-mediated epithelial regeneration. Nature. 528(7583):560–564.
  • Liu Z, Jiang J, He Q, Liu Z, Yang Z, Xu J, Huang Z, Wu B. 2019. β-Arrestin1-mediated decrease in endoplasmic reticulum stress impairs intestinal stem cell proliferation following radiation. FASEB J. 33(9):10165–10176.
  • Lombaert IMA, Brunsting JF, Wierenga PK, Faber H, Stokman MA, Kok T, Visser WH, Kampinga HH, de Haan G, Coppes RP. 2008. Rescue of salivary gland function after stem cell transplantation in irradiated glands. PLoS One. 3(4):e2063.
  • Lv H, Li L, Zhang Y, Chen Z, Sun M, Xu T, Tian L, Lu M, Ren M, Liu Y, et al. 2015. Union is strength: matrix elasticity and microenvironmental factors codetermine stem cell differentiation fate. Cell Tissue Res. 361(3):657–668.
  • Maimets M, Bron R, de Haan G, van Os R, Coppes RP. 2015. Similar ex vivo expansion and post-irradiation regenerative potential of juvenile and aged salivary gland stem cells. Radiother Oncol. 116(3):443–448.
  • Maimets M, Rocchi C, Bron R, Pringle S, Kuipers J, Giepmans BNG, Vries RGJ, Clevers H, de Haan G, van Os R, et al. 2016. Long-term in vitro expansion of salivary gland stem cells driven by Wnt signals. Stem Cell Rep. 6(1):150–162.
  • Man Y-G, Ball WD, Marchetti L, Hand AR. 2001. Contributions of intercalated duct cells to the normal parenchyma of submandibular glands of adult rats. Anat Rec. 263(2):202–214.
  • Marmary Y, Adar R, Gaska S, Wygoda A, Maly A, Cohen J, Eliashar R, Mizrachi L, Orfaig-Geva C, Baum BJ, et al. 2016. Radiation-induced loss of salivary gland function is driven by cellular senescence and prevented by IL6 modulation. Cancer Res. 76(5):1170–1180.
  • Martinez-Madrigal F, Micheau C. 1989. Histology of the major salivary glands. Am J Surg Pathol. 13(10):879–899.
  • Min Y, Wei X, Xia X, Wei Z, Li R, Jin J, Liu Z, Hu X, Peng X. 2023. Hepatitis B virus infection: An insight into the clinical connection and molecular interaction between hepatitis B virus and host extrahepatic cancer risk. Front Immunol. 14:1141956.
  • Morgan-Bathke M, Hill GA, Harris ZI, Lin HH, Chibly AM, Klein RR, Burd R, Ann DK, Limesand KH. 2014. Autophagy correlates with maintenance of salivary gland function following radiation. Sci Rep. 4(1):5206.
  • Mowat AM, Agace WW. 2014. Regional specialization within the intestinal immune system. Nat Rev Immunol. 14(10):667–685.
  • Nagle PW, Hosper NA, Barazzuol L, Jellema AL, Baanstra M, van Goethem M-J, Brandenburg S, Giesen U, Langendijk JA, van Luijk P, et al. 2018. Lack of DNA damage response at low radiation doses in adult stem cells contributes to organ dysfunction. Clin Cancer Res. 24(24):6583–6593.
  • Naik S, Larsen SB, Cowley CJ, Fuchs E. 2018. Two to tango: dialog between immunity and stem cells in health and disease. Cell. 175(4):908–920.
  • Nalapareddy K, Hassan A, Sampson LL, Zheng Y, Geiger H. 2021. Suppression of elevated Cdc42 activity promotes the regenerative potential of aged intestinal stem cells. iScience. 24(4):102362.
  • Nam K, dos Santos HT, Maslow F, Trump BG, Lei P, Andreadis ST, Baker OJ. 2021. Laminin-1 peptides conjugated to fibrin hydrogels promote salivary gland regeneration in irradiated mouse submandibular glands. Front Bioeng Biotechnol. 9(729180).
  • Ninche N, Kwak M, Ghazizadeh S. 2020. Diverse epithelial cell populations contribute to regeneration of secretory units in injured salivary glands. Development. 147(19):dev192807.
  • Noguchi S, Ohba Y, Oka T. 1991. Effect of salivary epidermal growth factor on wound healing of tongue in mice. Am J Physiol Endocrinol Metab. 260(4):E620–E625.
  • Okumura S, Konishi Y, Narukawa M, Sugiura Y, Yoshimoto S, Arai Y, Sato S, Yoshida Y, Tsuji S, Uemura K, et al. 2021. Gut bacteria identified in colorectal cancer patients promote tumourigenesis via butyrate secretion. Nat Commun. 12:5674.
  • Orhon I, Rocchi C, Villarejo-Zori B, Serrano Martinez P, Baanstra M, Brouwer U, Boya P, Coppes R, Reggiori F. 2022. Autophagy induction during stem cell activation plays a key role in salivary gland self-renewal. Autophagy. 18(2):293–308.
  • Pinho S, Frenette PS. 2019. Haematopoietic stem cell activity and interactions with the niche. Nat Rev Mol Cell Biol. 20(5):303–320.
  • Pourshams A, Sepanlou SG, Ikuta KS, Bisignano C, Safiri S, Roshandel G, Sharif M, Khatibian M, Fitzmaurice C, Nixon MR, et al. 2017. The global, regional, and national burden of pancreatic cancer and its attributable risk factors in 195 countries and territories, 1990–2017: a systematic analysis for the Global Burden of Disease Study. Lancet Gastroenterol Hepatol. 4(12):934–947.
  • Pringle S, Wang X, Verstappen GMPJ, Terpstra JH, Zhang CK, He A, Patel V, Jones RE, Baird DM, Spijkervet FKL, et al. 2019. Salivary gland stem cells age prematurely in primary Sjögren’s syndrome. Arthritis Rheumatol. 71(1):133–142.
  • Proctor GB. 2016. The physiology of salivary secretion. Periodontol 2000. 70(1):11–25.
  • Qi D, Shi W, Black AR, Kuss MA, Pang X, He Y, Liu B, Duan B. 2020. Repair and regeneration of small intestine: a review of current engineering approaches. Biomaterials. 240:119832.
  • Riehl TE, Alvarado D, Ee X, Zuckerman A, Foster L, Kapoor V, Thotala D, Ciorba MA, Stenson WF. 2019. Lactobacillus rhamnosus GG protects the intestinal epithelium from radiation injury through release of lipoteichoic acid, macrophage activation and the migration of mesenchymal stem cells. Gut. 68(6):1003–1013.
  • Rocchi C, Cinat D, Serrano Martinez P, Bruin ALJ, Baanstra M, Brouwer U, del Angel Zuivre C, Schepers H, van Os R, Barazzuol L, et al. 2021. The Hippo signaling pathway effector YAP promotes salivary gland regeneration after injury. Sci Signal. 14(712):eabk0599.
  • Rodrigues-Moreira S, Moreno SG, Ghinatti G, Lewandowski D, Hoffschir F, Ferri F, Gallouet A-S, Gay D, Motohashi H, Yamamoto M, et al. 2017. Low-dose irradiation promotes persistent oxidative stress and decreases self-renewal in hematopoietic stem cells. Cell Reports. 20(13):3199–3211.
  • Russ HA, Bar Y, Ravassard P, Efrat S. 2008. In vitro proliferation of cells derived from adult human β-cells revealed by cell-lineage tracing. Diabetes. 57(6):1575–1583.
  • Saha S, Aranda E, Hayakawa Y, Bhanja P, Atay S, Brodin NP, Li J, Asfaha S, Liu L, Tailor Y, et al. 2016. Macrophage-derived extracellular vesicle-packaged WNTs rescue intestinal stem cells and enhance survival after radiation injury. Nat Commun. 7(13096).
  • Sarosiek J, Bilski J, Murty VLN, Slomiany A, Slomiany BL. 1988. Role of salivary epidermal growth factor in the maintenance of physicochemical characteristics of oral and gastric mucosal mucus coat. Biochem Biophys Res Commun. 152(3):1421–1427.
  • Saw S, Weiss A, Khokha R, Waterhouse PD. 2019. Metalloproteases: on the watch in the hematopoietic niche. Trends Immunol. 40(11):1053–1070.
  • Shah D, Son K-N, Kalmodia S, Lee B-S, Ali M, Balasubramaniam A, Shukla D, Aakalu VK. 2020. Wound healing properties of histatin-5 and identification of a functional domain required for histatin-5-induced cell migration. Mol Ther Methods Clin Dev. 17:709–716.
  • Shankman LS, Fleury ST, Evans WB, Penberthy KK, Arandjelovic S, Blumberg RS, Agaisse H, Ravichandran KS. 2021. Efferocytosis by Paneth cells within the intestine. Curr Biol. 31(11):2469 .e5–2476.e5.
  • Shao L, Luo Y, Zhou D. 2014. Hematopoietic stem cell injury induced by ionizing radiation. Antioxid Redox Signal. 20(9):1447–1462.
  • Strubberg AM, Liu J, Walker NM, Stefanski CD, MacLeod RJ, Magness ST, Clarke LL. 2017. Cftr modulates Wnt/β-catenin signaling and stem cell proliferation in murine intestine. Cell Mol Gastroenterol Hepatol. 5(3):253–271.
  • Takamatsu K, Tanaka J, Katada R, Azuma K, Takakura I, Aota K, Kamatani T, Shirota T, Inoue S, Mishima K. 2021. Aging-associated stem/progenitor cell dysfunction in the salivary glands of mice. Exp Cell Res. 409(1):112889.
  • Talchai C, Xuan S, Kitamura T, DePinho RA, Accili D. 2012. Generation of functional insulin-producing cells in the gut by Foxo1 ablation. Nat Genet. 44(4):406–412, S1.
  • Tanaka J, Senpuku H, Ogawa M, Yasuhara R, Ohnuma S, Takamatsu K, Watanabe T, Mabuchi Y, Nakamura S, Ishida S, et al. 2022. Human induced pluripotent stem cell-derived salivary gland organoids model SARS-CoV-2 infection and replication. Nat Cell Biol. 24(11):1595–1605.
  • Tang X-Y, Wu S, Wang D, Chu C, Hong Y, Tao M, Hu H, Xu M, Guo X, Liu Y. 2022. Human organoids in basic research and clinical applications. Sig Transduct Target Ther. 7(1):168. 10.1038/s41392-022-01024-9.
  • Van den Bosch L, van der Schaaf A, van der Laan HP, Hoebers FJP, Wijers OB, van den Hoek JGM, Moons KGM, Reitsma JB, Steenbakkers RJHM, Schuit E, et al. 2021. Comprehensive toxicity risk profiling in radiation therapy for head and neck cancer: a new concept for individually optimised treatment. Radiother Oncol. 157:147–154.
  • VanHorn S, Morris SA. 2021. Next-generation lineage tracing and fate mapping to interrogate development. Dev Cell. 56(1):7–21.
  • van Luijk P, Pringle S, Deasy JO, Moiseenko VV, Faber H, Hovan A, Baanstra M, van der Laan HP, Kierkels RGJ, van der Schaaf A, et al. 2015. Sparing the region of the salivary gland containing stem cells preserves saliva production after radiotherapy for head and neck cancer. Sci Transl Med. 7(305):305ra147.
  • van Nimwegen FA, Schaapveld M, Janus CPM, Krol ADG, Raemaekers JMM, Kremer LCM, Stovall M, Aleman BMP, van Leeuwen FE. 2014. Risk of diabetes mellitus in long-term survivors of Hodgkin lymphoma. J Clin Oncol. 32(29):3257–3263.
  • Voog J, Jones DL. 2010. Stem cells and the niche: a dynamic duo. Cell Stem Cell. 6(2):103–115.
  • Wang D, Wang J, Bai L, Pan H, Feng H, Clevers H, Zeng YA. 2020. Long-term expansion of pancreatic islet organoids from resident Procr + progenitors. Cell. 180(6):1198.e19–1211.e19.
  • Weber B, Saurer L, Mueller C. 2009. Intestinal macrophages: differentiation and involvement in intestinal immunopathologies. Semin Immunopathol. 31(2):171–184.
  • Wlodarska M, Luo C, Kolde R, d’Hennezel E, Annand JW, Heim CE, Krastel P, Schmitt EK, Omar AS, Creasey EA, et al. 2017. Indoleacrylic acid produced by commensal peptostreptococcus species suppresses inflammation. Cell Host Microbe. 22(1):25 .e6–37.e6.
  • Wyllie AL, Fournier J, Casanovas-Massana A, Campbell M, Tokuyama M, Vijayakumar P, Warren JL, Geng B, Muenker MC, Moore AJ, et al. 2020. Saliva or nasopharyngeal swab specimens for detection of SARS-CoV-2. N Engl J Med. 383(13):1283–1286.
  • Xiao N, Lin Y, Cao H, Sirjani D, Giaccia AJ, Koong AC, Kong CS, Diehn M, Le Q-T. 2014. Neurotrophic factor GDNF promotes survival of salivary stem cells. J Clin Invest. 124(8):3364–3377.
  • Yao Y, Kim G, Shafer S, Chen Z, Kubo S, Ji Y, Luo J, Yang W, Perner SP, Kanellopoulou C, et al. 2022. Mucus sialylation determines intestinal host-commensal homeostasis. Cell. 185(7):1172 .e28–1188.e28.
  • Zajicek G, Yagil C, Michaeli Y. 1985. The streaming submandibular gland. Anat Rec. 213(2):150–158.
  • Zhang S, Sui Y, Fu X, Feng Y, Luo Z, Zhang Y, Wei S. 2020. Specific complexes derived from extracellular matrix facilitate generation of structural and drug‐responsive human salivary gland microtissues through maintenance stem cell homeostasis. J Tissue Eng Regen Med. 14(2):284–294.
  • Zhao Q, Zhang L, Hai B, Wang J, Baetge CL, Deveau MA, Kapler GM, Feng JQ, Liu F. 2020. Transient activation of the Hedgehog-Gli pathway rescues radiotherapy-induced dry mouth via recovering salivary gland resident macrophages. Cancer Res. 80(24):5531–5542.
  • Zhou BO, Ding L, Morrison SJ. 2015. Hematopoietic stem and progenitor cells regulate the regeneration of their niche by secreting angiopoietin-1. Elife. 4:e05521.
  • Zhou BO, Yu H, Yue R, Zhao Z, Rios JJ, Naveiras O, Morrison SJ. 2017. Bone marrow adipocytes promote the regeneration of stem cells and hematopoiesis by secreting SCF. Nat Cell Biol. 19(8):891–903.
  • Zhu P, Zhu X, Wu J, Luyun H, Lu T, Wang Y, Liu B, Ye B, Sun L, Fan D, et al. 2019. IL-13 secreted by ILC2s promotes the self-renewal of intestinal stem cells through circular RNA circPan3. Nat Immunol. 20(2):183–194.

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