WATER BALANCE ( l / DAY ) INTAKE OUTPUT saliva stomach pancreas bile small intestine colon 2 1,5 2 1,5 0,5 1,5 8,5 0,4 0,1 (7,5) (1,3) (0,2) Diffusion Facilitated diffusion Co-transport Active transport WATER ABSORPTION (small intestine, gallbladder, stomach, colon) (duodenum - osmoticdraft of H2O) Continuous osmotic gradient brush border H2O H2O FILTRATION Na+ Na+, K+, Cl- +10mV Na+ K+ Cl- TRANSPORT •Transcellular •Paracellular Brush border Tight junctions Basal membrane Lateral membrane F STIMULATION: digestion products (AA, sugars) TRANSPORT OF ELECTROLYTES K+ Na+ K+ K+ Na+ Na+ IL IL glucose, galactose, AA Cl- H2O+CO2 H+ HCO3 - H2CO3 H2O + CO2 Gs cAMP ClLieberkühn cryptes: matured cells – absorption, immature cells – secretion of Na+, Cl- a H2O JEJUNUM ILEUM choleratoxin (Cl, Na, H2O) H2O K+ K+ H2O DIARRHOEA brush border basolateral membrane J glucose, galactose, AA K+ Na+ (120mM/l) K+ Na+ Na+(25mM/l)+H2O Cl- H2O+CO2 H+ HCO3 - H2CO3 H2O + CO2 TRANSPORT OF ELECTROLYTES COLON K+ ClALDOSTERON ALDOSTERON ALDOSTERON – synthesis of transport systems (as in proximal tubule) basolateral membrane brush border K+ REGULATION OF TRANSPORT OF WATER AND ELECTROLYTES 1. Autonomous nervous system: SYMP – increase of absorption of water, sodium and chlorine 2. Aldosteron: colon – stimulation of secretion of potassium and absorption of sodium and water (up-regulation of Na/K-ATPase, Na-channel) 3. Glucocorticoids: colon - stimulation of secretion of potassium and absorption of sodium and water (up-regulation of Na/K-ATPase) ABSORPTION OF Ca2+ INTAKE: 1000mg/day ABSORPTION: 350mg/day Absorption against concentration gradient (1:10) in all GIT (D, J), 50x slower than absorption of Na+ Ca2+ Ca BP Ca2+-ATPase Na+/Ca2+-antiport VIT.D ER Mch 1,25-dihydrocholecalciferol Calbindin – prevention of formation of insoluble salts (phosphates, oxalates) [Ca2+]pl. Basolateral membrane brush border Intestinal membrane calcium-binding protein RACHITIS (rickets) ABSORPTION OF Fe2+ endocytosis 2 Fe2+ TRANSFERIN INTAKE: 15-20mg/day ABSORPTION: Men: 0,5 - 1mg/day Women: 1 – 1,5mg/day D, J pH: Fe3+ Fe2+ 70% - Hb 25% - F Insoluble salts and complexes (20:1) – limitation of absorption Decrease of pH Fe – up-regulation Fe2+ stimulates synthesis of TF – regulation! Hemosiderin – deposits of Fe in desmosomes PLAZMATIC TRANSFERIN (Apo)-Feritin Excess of Fe2+ – loss with epithelium Fe2+ stimulates synthesis of apoferitin (translation) – regulation! basolateral membrane brush border VITAMIN B12 •Daily dose is close to absorption capacity •Synthesised by bacteria in colon – BUT there is not absorption mechanism •Store in liver (2-5mg) •In bile 0,5-5mg / day, reabsorbed •Daily loss – 0,1% of stores stores will last for 3-6 years ABSORPTION 1. Gastric phase: B12 is bound to proteins, low pH and pepsin release it; bound to glycoproteins – R-proteins (saliva, gastric juice), almost pH-undependable; intrinsic factor (IF) – parietal cells of gastric mucosa; most of vitamin bound to R- proteins 2. Intestinal phase: pancreatic proteases, cleavage of R-B12, bound to IF (resistant to pancreatic proteases) ABSORPTION OF B12 VITAMIN IF B12 B12 B12 IF IF Intrinsic Factor IF-B12 receptor complex ? B12 B12 B12 v.portae TERMINAL ILEUM B12 transcobalamin II Pernicious anaemia (megaloblastic) DIGESTION AND ABSORPTION OF SACCHARIDES POLYSACHARIDES (a-glycosyled s.) OLIGOSACCHARIDES MONOSACHARIDESFRUCTOSE GLUCOSE GALACTOSE AMYLOPECTIN GLYCOGENa-amylase DEXTRIN TRICHACHARIDES DISACHARIDES: SACCHAROSE MALTOSE LACTOSE Isomaltase Maltase Saccharase Lactase Saliva Pancreatic juice Na+ Epithelium of duodenum and jejunum •Lactase intolerance •Diarrhoea salivary amylase 2 binding sites for Na+ 1 binding site for saccharide facilitated transport + diffusion GLUT-5 SGLT-1 GLUT-2 DIGESTION AND ABSORPTION OF PROTEINS STOMACH Pepsin DUODENUM Trypsin Chymotrypsin Carboxypeptidase JEJUNUM Membrane peptidases (brush border) CYTOPLASMA of epithelial cell di-, tri-peptidases PEPTIDES > 4 AA DI-, TRI-PEPTIDES AA AA PROTEASES 15% 50% PEPTIDASES (exo-, endo-) NUCLEASES Na-cotransport Diffusion Purine, pyrimidine bases – active transport 100g food + 30g GIT juices + epithelial cells enterokinase ABSORPTION OF LIPIDS Triglycerides (TAG) Sterols (-esters) Phospholipids (lecithin) LIPID DROPS EMULSIFICATION (+lecithin, +monoglycides) Ø 1mm BILE ACIDS SALTS DEESTHERIFICATION PANCREATIC LIPASE (colipase) CHOLESTEROL-ESTHERASE PHOSPHOLIPASE A2 ENTERIC LIPASE Glycerol FA MAG CH LFL MICELLES Ø 5nm, 20-30 molecules polar stratification, hydrophilic disintegration of micelles TAG unstirred water layer 200-500mm bile acids resorption (diffusion) reesterification (FA >12c, in endopl.retic. CHE PL PROT. EXOCYTOSIS CHYLOMICRA Ø 10nm LYMPHATIC CIRCULATION NEFA (<12c) GLYCEROL capillaries (fenestration) Na+ DIGESTION AND ABSORPTION OFDIGESTION AND ABSORPTION OF ABSORPTION IN COLON • Na+ (active, aldosteron) H2O (90% water in colon) • Cl• Vit. K, B • AA, lactate, bile acids, FA REST OF CHYME 1. Cellulose, collagen 2. Bile acids, epithelia, mucin, leucocytes • Bacteria fermenting: fibre (pectin, cellulose) – lactate, alcohol, acetate, CO2, methane • Bacteria putrescent: residues of AA – NH3, SH2, phenol, indole, solatol (carcinogenic) Production of vitamin K and vitamins of B group NUTRITION PASSAGE EUMICROBIA