The single cell layer of intestinal

The single cell layer of intestinal epithelium plays a number of key roles in nutrient digestion and absorption and it forms the most important barrier between internal and external environment. It restricts both transcellular and paracellular passage of luminal antigens and other noxious substances to circulation (Söderholm and Perdue, 2006). The ability of the intestinal epithelium to act as a barrier is essential for maintaining the health of the organism. Damaging the intestinal epithelium can cause intestinal barrier dysfunction which permits endotoxins passage from gut lumen to blood circulation leading to multi-organ dysfunction (Bouchama and Knochel, 2002). It has become increasingly recognized that heat stress can negatively affect intestinal barrier integrity and functions through damaging intestinal epithelium (Liu et al., 2009; Pearce et al., 2013), villouscrypt histological injuries (Song et al., 2013, 2014), alterations in intestinal permeability (Lambert et al., 2002; Lambert, 2009) and changing the conditions for resident bacteria–enterocyte contact
which increase intestinal susceptibility to pathogenic bacteria colonization (Quinteiro-Filho et al., 2010, 2012). Heat stress has many profound effects on poultry health and performance, particularly in broilers because they are more susceptible to heat load than slower growing domestic fowl (Lin et al., 2006; Abdelqader and Al-Fataftah, 2014). Probiotics and prebiotics have been used as a dietary approach to remedy this situation (Sohail et al., 2012;
Song et al., 2013, 2014; Al-Fataftah and Abdelqader, 2014). These feed additives can enhance intestinal microbial fermentation and production of short-chain fatty acids (SCFA), particularly butyrate (Meimandipour et al., 2010; Rebolé et al., 2010). Butyrate can be utilized by intestinal epithelial cells as a direct source of energy to stimulate their proliferation and differentiation and improve intestinal barrier function (Kinoshita et al., 2002)