B. Striepen, Parasitic infections: Time to tackle cryptosporidiosis, Nature, vol.503, pp.189-191, 2013.

S. Thomson, C. A. Hamilton, J. C. Hope, F. Katzer, N. A. Mabbott et al., Bovine cryptosporidiosis: Impact, host-parasite interaction and control strategies, Vet. Res, vol.48, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01574200

D. M. Ojcius, J. L. Perfettini, A. Bonnin, and F. Laurent, Caspase-dependent apoptosis during infection with Cryptosporidium parvum. Microbes Infect, vol.1, pp.1163-1168, 1999.
URL : https://hal.archives-ouvertes.fr/hal-02686030

D. F. Mccole, L. Eckmann, F. Laurent, and M. F. Kagnoff, Intestinal epithelial cell apoptosis following Cryptosporidium parvum infection, Infect. Immun, vol.68, pp.1710-1713, 2000.
URL : https://hal.archives-ouvertes.fr/hal-02685049

F. Laurent, L. Eckmann, T. C. Savidge, G. Morgan, C. Theodos et al., Cryptosporidium parvum infection of human intestinal epithelial cells induces the polarized secretion of C-X-C chemokines, Infect. Immun, vol.65, pp.5067-5073, 1997.
URL : https://hal.archives-ouvertes.fr/hal-02685623

S. Lacroix-lamande, R. Mancassola, M. Naciri, and F. Laurent, Role of gamma interferon in chemokine expression in the ileum of mice and in a murine intestinal epithelial cell line after Cryptosporidium parvum infection, Infect. Immun, vol.70, pp.2090-2099, 2002.
URL : https://hal.archives-ouvertes.fr/hal-02669395

L. Lantier, S. Lacroix-lamande, L. Potiron, C. Metton, F. Drouet et al., Intestinal CD103+ dendritic cells are key players in the innate immune control of Cryptosporidium parvum infection in neonatal mice, PLoS Pathog, vol.9, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01204445

T. K. Zaalouk, M. Bajaj-elliott, J. T. George, and V. Mcdonald, Differential regulation of beta-defensin gene expression during Cryptosporidium parvum infection, Infect. Immun, vol.72, pp.2772-2779, 2004.

S. Carryn, D. A. Schaefer, M. Imboden, E. J. Homan, R. D. Bremel et al., Phospholipases and cationic peptides inhibit Cryptosporidium parvum sporozoite infectivity by parasiticidal and non-parasiticidal mechanisms, J. Parasitol, vol.98, pp.199-204, 2012.

W. Guesdon, G. Auray, T. Pezier, F. I. Bussiere, F. Drouet et al., Cryptosporidium parvum, but Its Expression Is Reduced During Infection in the Intestine of Neonatal Mice, Displays Antimicrobial Activity Against, vol.212, pp.1332-1340, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01171498

R. M. Van-harten, E. Van-woudenbergh, A. Van-dijk, and H. P. Haagsman, Cathelicidins: Immunomodulatory Antimicrobials, vol.6, 2018.

R. Bals, X. Wang, M. Zasloff, and J. M. Wilson, The peptide antibiotic LL-37/hCAP-18 is expressed in epithelia of the human lung where it has broad antimicrobial activity at the airway surface, Proc. Natl. Acad. Sci, vol.95, pp.9541-9546, 1998.

L. Saiman, S. Tabibi, T. D. Starner, P. Gabriel, P. L. Winokur et al., Cathelicidin peptides inhibit multiply antibiotic-resistant pathogens from patients with cystic fibrosis, Antimicrob. Agents Chemother, vol.45, pp.2838-2844, 2001.

F. S. Yu, M. D. Cornicelli, M. A. Kovach, M. W. Newstead, X. Zeng et al., Flagellin stimulates protective lung mucosal immunity: Role of cathelicidin-related antimicrobial peptide, J. Immunol, vol.185, pp.1142-1149, 2010.

M. G. Scott, D. J. Davidson, M. R. Gold, D. Bowdish, and R. E. Hancock, The human antimicrobial peptide LL-37 is a multifunctional modulator of innate immune responses, J. Immunol, vol.169, pp.3883-3891, 2002.

D. M. Bowdish, D. J. Davidson, and R. E. Hancock, Immunomodulatory properties of defensins and cathelicidins, Curr. Top. Microbiol. Immunol, vol.306, pp.27-66, 2006.

C. J. Whelehan, A. Barry-reidy, K. G. Meade, P. D. Eckersall, A. Chapwanya et al., Characterisation and expression profile of the bovine cathelicidin gene repertoire in mammary tissue, BMC Genom, vol.15, 2014.

S. Menard, V. Forster, M. Lotz, D. Gutle, C. U. Duerr et al., Developmental switch of intestinal antimicrobial peptide expression, J. Exp. Med, vol.205, pp.183-193, 2008.

A. Giacometti, O. Cirioni, M. S. Del-prete, B. Skerlavaj, R. Circo et al., In vitro effect on Cryptosporidium parvum of short-term exposure to cathelicidin peptides, J. Antimicrob. Chemother, vol.51, pp.843-847, 2003.

S. Lacroix, R. Mancassola, M. Naciri, and F. Laurent, Cryptosporidium parvum-specific mucosal immune response in C57BL/6 neonatal and gamma interferon-deficient mice: Role of tumor necrosis factor alpha in protection, Infect. Immun, vol.69, pp.1635-1642, 2001.

M. Bens, A. Bogdanova, F. Cluzeaud, L. Miquerol, S. Kerneis et al., Transimmortalized mouse intestinal cells (m-ICc12) that maintain a crypt phenotype, Am. J. Physiol, vol.270, pp.1666-1674, 1996.

E. R. Cobo, C. He, K. Hirata, G. Hwang, U. Tran et al., Entamoeba histolytica induces intestinal cathelicidins but is resistant to cathelicidin-mediated killing, Infect. Immun, vol.80, pp.143-149, 2012.

Y. Li, X. Chu, C. Liu, W. Huang, Y. Yao et al., Exogenous murine antimicrobial peptide CRAMP significantly exacerbates Ovalbumin-induced airway inflammation but ameliorates oxazolone-induced intestinal colitis in BALB/c mice, Hum. Vaccines Immunother, vol.14, pp.146-158, 2018.

J. L. Fachi, J. S. Felipe, L. P. Pral, B. K. Da-silva, R. O. Correa et al., Butyrate Protects Mice from Clostridium difficile-Induced Colitis through an HIF-1-Dependent Mechanism, Cell Rep, vol.27, pp.750-761, 2019.

C. M. Theodos, K. L. Sullivan, J. K. Griffiths, and S. Tzipori, Profiles of healing and nonhealing Cryptosporidium parvum infection in C57BL/6 mice with functional B and T lymphocytes: The extent of gamma interferon modulation determines the outcome of infection, Infect. Immun, vol.65, pp.4761-4769, 1997.

R. C. Pollok, M. J. Farthing, M. Bajaj-elliott, I. R. Sanderson, and V. Mcdonald, Interferon gamma induces enterocyte resistance against infection by the intracellular pathogen Cryptosporidium parvum, Gastroenterology, vol.120, pp.99-107, 2001.

T. De-sablet, L. Potiron, M. Marquis, F. I. Bussiere, S. Lacroix-lamande et al., Cryptosporidium parvum increases intestinal permeability through interaction with epithelial cells and IL-1beta and TNFalpha released by inflammatory monocytes, Cell. Microbiol, vol.18, pp.1871-1880, 2016.

L. Potiron, S. Lacroix-lamande, M. Marquis, Y. Levern, G. Fort et al., Batf3-Dependent Intestinal Dendritic Cells Play a Critical Role in the Control of Cryptosporidium parvum Infection, J. Infect. Dis, vol.219, pp.925-935, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02620376

R. E. Hancock, E. F. Haney, and E. E. Gill, The immunology of host defence peptides: Beyond antimicrobial activity, Nat. Rev. Immunol, vol.16, pp.321-324, 2016.

N. Mookherjee, K. L. Brown, D. M. Bowdish, S. Doria, R. Falsafi et al., Modulation of the TLR-mediated inflammatory response by the endogenous human host defense peptide LL-37, J. Immunol, vol.176, pp.2455-2464, 2006.

A. L. Hilchie, K. Wuerth, and R. E. Hancock, Immune modulation by multifaceted cationic host defense (antimicrobial) peptides, Nat. Chem. Biol, vol.9, pp.761-768, 2013.

Y. Bei, L. L. Pan, Q. Zhou, C. Zhao, Y. Xie et al., Cathelicidin-related antimicrobial peptide protects against myocardial ischemia/reperfusion injury, BMC Med, vol.17, 2019.

J. Sun, M. Xu, H. Ortsater, E. Lundeberg, L. Juntti-berggren et al., Cathelicidins positively regulate pancreatic beta-cell functions, FASEB J, vol.30, pp.884-894, 2016.

P. Crauwels, E. Bank, B. Walber, U. A. Wenzel, B. Agerberth et al., Cathelicidin Contributes to the Restriction of Leishmania in Human Host Macrophages, Front. Immunol, vol.10, 2019.

D. Santos, J. C. Heinhuis, B. Gomes, R. S. Damen, M. S. Real et al., Cytokines and microbicidal molecules regulated by IL-32 in THP-1-derived human macrophages infected with New World Leishmania species, PLoS Negl. Trop. Dis, vol.11, 2017.

M. Parra, X. Liu, S. C. Derrick, A. Yang, J. Tian et al., Molecular analysis of non-specific protection against murine malaria induced by BCG vaccination, PLoS ONE, vol.8, 2013.

I. C. Bandeira, D. Bandeira-lima, C. P. Mello, T. P. Pereira, R. De-menezes et al., Antichagasic effect of crotalicidin, a cathelicidin-like vipericidin, found in Crotalus durissus terrificus rattlesnake's venom gland, Parasitology, vol.145, pp.1059-1064, 2018.

M. Coorens, M. R. Scheenstra, E. J. Veldhuizen, and H. P. Haagsman, Interspecies cathelicidin comparison reveals divergence in antimicrobial activity, TLR modulation, chemokine induction and regulation of phagocytosis

G. Hu, A. Y. Gong, A. L. Roth, B. Q. Huang, H. D. Ward et al., Release of luminal exosomes contributes to TLR4-mediated epithelial antimicrobial defense, PLoS Pathog, vol.9, 2013.

M. W. Hornef and N. Torow, Layered immunity' and the 'neonatal window of opportunity'-Timed succession of non-redundant phases to establish mucosal host-microbial homeostasis after birth, Immunology, vol.159, pp.15-25, 2020.

Y. Kai-larsen, G. Bergsson, G. H. Gudmundsson, G. Printz, H. Jornvall et al., Antimicrobial components of the neonatal gut affected upon colonization, Pediatr. Res, vol.61, pp.530-536, 2007.

Z. Ming, A. Y. Gong, Y. Wang, X. T. Zhang, M. Li et al., Trans-suppression of defense DEFB1 gene in intestinal epithelial cells following Cryptosporidium parvum infection is associated with host delivery of parasite Cdg7_FLc_1000 RNA, Parasitol. Res, vol.117, pp.831-840, 2018.

B. Sperandio, B. Regnault, J. Guo, Z. Zhang, S. L. Stanley et al., Virulent Shigella flexneri subverts the host innate immune response through manipulation of antimicrobial peptide gene expression, J. Exp. Med, vol.205, pp.1121-1132, 2008.

J. D. Heilborn, M. F. Nilsson, G. Kratz, G. Weber, O. Sorensen et al., The cathelicidin anti-microbial peptide LL-37 is involved in re-epithelialization of human skin wounds and is lacking in chronic ulcer epithelium, J. Investig. Dermatol, vol.120, pp.379-389, 2003.

J. Agier, M. Efenberger, and E. Brzezinska-blaszczyk, Cathelicidin impact on inflammatory cells. Cent, Eur. J. Immunol, vol.40, pp.225-235, 2015.

A. M. Van-der-does, H. Beekhuizen, B. Ravensbergen, T. Vos, T. H. Ottenhoff et al., LL-37 directs macrophage differentiation toward macrophages with a proinflammatory signature, J. Immunol, vol.185, pp.1442-1449, 2010.