Summary
Two fish species (rainbow trout and common carp) that differ in natural diet also exhibit differences in the adaptive flexibility of their intestinal nutrient transport mechanisms in response to changes in dietary nutrient composition. When carp ingested a feed that was 24% glucose by weight, there was an increase in both the intestinal length and rates of nutrient absorption, particularly for glucose, when compared to carp fed an isonitrogenous diet devoid of digestible carbohydrate. As a result, the intestine's uptake capacity (nmol of glucose and proline absorbed per min per g body weight) was higher in carp fed the 24% glucose feed. Due to the greater increase in glucose uptake, the ratio of glucose uptake relative to proline (G/P ratio) was higher in carp fed the 24% glucose. Thus, carp are able to adapt to the quantity, and apparently also to the type, of digestible carbohydrate in the diet. In contrast, glucose uptake by trout was unresponsive to the quantity of dietary carbohydrate. Insted, the elevated glucose paradoxically resulted in a greater uptake capacity for proline and a lower G/P ratio. Hence, the adaptive capabilities of the intestinal nutrient transport processes are matched to the potential variation in the carbohydrate content of the natural diet.
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Abbreviations
- PEG :
-
polyethylene glycol
References
Bergot F (1979a) Carbohydrate in rainbow trout diets: effect of level and source of carbohydrate and number of meals on growth and body composition. Aquaculture 18:157–168
Bergot F (1979b) Effects of dietary carbohydrates and of their mode of distribution on glycaemia in rainbow trout (Salmo gairdneri Richardson). Comp Biochem Physiol 64A:543–547
Buddington RK (1980) Hydrolysis-resistant organic matter as a reference for measurement of fish digestive efficiency. Trans Am Fish Soc 109:653–666
Buddington RK, Diamond JM (1987) Pyloric caeca of fish, a ‘new’ absorptive organ. Am J Physiol 252:G65-G76
Buddington RK, Chen JW, Diamond JM (1987) Genetic and phenotypic adaptation of intestinal nutrient transport to diet in fish. J Physiol (in press)
Cowey CB, Knox D, Walton MJ, Adron JW (1977) The regulation of gluconeogenesis by diet and insulin in rainbow trout (Salmo gairdneri). Br J Nutr 38:463–470
Cowey CB, Sargent JR (1979) Nutrition. In: Hoar WS, Randall DJ, Brett JR (eds) Fish Physiology, vol VIII. Academic Press, New York, pp 1–69
Dauncey MJ, Ingram DL, James PS, Smith MW (1983) Modification by diet and environmental temperature of enterocyte function in piglet intestine. J Physiol (London) 341:441–452
Diamond JM, Karasov WH (1984) Effect of dietary carbohydrate on monsaccharide uptake by mouse intestine in vitro. J Physiol 349:419–440
Edwards DJ, Austreng E, Risa S, Gjedrem T (1977) Carbohydrate in rainbow trout diets. II. Influence of carbohydrate levels on chemical composition and feed utilization of fish from different families. Aquaculture 11:39–50
Ferraris RP, Diamond JM (1986) A method for measuring apical glucose transporter site density in intact intestinal mucosa by means of phlorizin binding. J Memb Biol 94:65–75
Fish GR (1960) The comparative activity of some digestive enzymes in the alimentary canal ofTilapia and perch. Hydrobiologia 15:161–179
Hilton JW (1982) The effect of pre-fasting diet and water temperature on liver glycogen and liver weight in rainbow trout,Salmo gairdneri, during fasting. J Fish Biol 20:69–78
Hilton JW, Slinger SJ (1983) Effect of wheat bran replacement of wheat middlings in extrusion processed (floating) diets on growth of juvenile rainbow trout (Salmo gairdneri). Aquaculture 35:201–210
Hilton JW, Atkinson JL, Slinger SJ (1982) Maximum tolerable level, digestion, and metabolism ofd-glucose (cerelose) in rainbow trout (Salmo gairdneri) reared on a practical trout diet. Can J Fish Aquatic Sci 39:1229–1234
Jobling M (1983) A short review and critique of methodology used in fish growth and nutrition studies. J Fish Biol 23:685–703
Karasov WH, Diamond JM (1983a) Adaptive regulation of sugar and amino acid transport by vertebrate intestine. Am J Physiol 245:G443-G462
Karasov WH, Diamond JM (1983b) A simple method for measuring intestinal solute uptake in vitro. J Comp Physiol 152:105–116
Karasov WH, Solberg DH, Diamond JM (1985) What transport adaptations enable mammals to absorb sugars and amino acids faster than reptiles? Am J Physiol 249:G271–283
Kitamikado M, Tachino S (1960) Studies on the digestive enzymes of rainbow trout-L Carbohydrases. Bull Jpn Soc Sci Fish 26:679–684
Kitamikado M, Morishita T, Tachino S (1964) Digestibility of dietary protein in rainbow trout-II. Effect of starch and oil contents in diets, and size of fish. Bull Jpn Soc Sci Fish 30:50–54
Lin H, Romsos DR, Tack PI, Leveille GA (1978) Determination of glucose utilization in coho salmon [Oncorhynchus kisutch (Walbaum)] with (6-3H)- and (U-14C)-glucose. Comp Biochem Physiol 59A:189–191
Nagayama F, Saito Y (1969) Distribution of several hydrolytic enzymes in fish. EIFAC Tech Pap 9:103–116
Newson B, Alman H, Dahlstrom A, Nyhus LM (1982) Ultrastructural observations in the ileal mucosa of possible epithelial ‘taste cells’ and submucosal sensory neurons. Acta Physiol Scand 114:161–164
National Research Council (1977) Nutrient requirements of warmwater fishes. National Academy of Sciences, Washington DC, p 78
National Research Council (1981) Nutrient requirements of coldwater fishes. National Academy of Sciences Washington DC, p 63
Palmer TN, Ryman BE (1972) Studies on oral glucuse intolerance in fish. J Fish Biol 4:311–319
Pieper A, Pfeffer E (1980) Studies on the comparative efficiency of utilization of gross energy from some carbohydrates, proteins and fats by rainbow trout (Salmo gairdneri R.). Aquaculture 20:323–332
Scharrer E, Wolffram S, Raab W, Agne N (1981) Adaptive changes of amino acid and sugar transport across the brush border of rat jejunum. In: Robinson JWL, Dowling RH, Riecken E-O (eds) Mechanisms of Intestinal Adaptation MTP Press, Lancaster, pp 123–137
Solberg DS, Diamond JM (1987) Comparison of different dietary sugars as inducers of intestinal sugar transport. Am J Physiol (in press)
Spannhof L, Plantikow H (1983) Studies on carbohydrate digestion in rainbow trout. Aquaculture 30:95–108
Stroband HWJ (1977) Growth and diet dependent structural adaptations of the digestive tract in juvenile grasscarp (Ctenopharyngodon idella Val.). J Fish Biol 11:167–174
Stroband HWJ, Debets FMH (1978) The ultrastructure and renewal of the intestinal epithelium of the juvenile grasscarp (Ctenopharyngodon idella Val.). Cell Tissue Res 187:181–200
Tacon AGJ, Cowey CB (1985) Protein and amino acid requirements. In: Tytler P, Calow P (eds) Fish Energetics, New Perspectives. Johns Hopkins Press, Baltimore, pp 155–183
Wolffram S, Scharrer E (1984) Effect of feeding a high protein diet on amino acid uptake into rat intestinal brush border membrane vesicles. Pflügers Arch 400:34–39
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Buddington, R.K. Does the natural diet influence the intestine's ability to regulate glucose absorption?. J Comp Physiol B 157, 677–688 (1987). https://doi.org/10.1007/BF00700989
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DOI: https://doi.org/10.1007/BF00700989