References
- Allison AC, Eugui EM. (2000). Mycophenolate mofetil and its mechanisms of action. Immunopharmacology. 47:85–118
- Behrend M. (2001). Adverse gastrointestinal effects of mycophenolate mofetil: Aetiology, incidence and management. Drug Saf. 24:645–63
- Bernard A, Carlier H. (1991). Absorption and intestinal catabolism of fatty acids in the rat: Effect of chain length and unsaturation. Exp Physiol. 76:445–55
- Berribi C, Loirat C, Jacqz-Aigrain E. (2000). Mycophenolate mofetil may induce apoptosis in duodenal villi. Pediatr Nephrol. 14:177–8
- Booth CC. (1968). Handbook of physiology. In Code CF, Heidel W, eds. Handbook of physiology, Section 6, Alimentary canal. Vol. 3. Washington, DC: American Physiological Society, pp. 1513–27
- Bradford MM. (1976). A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding. Anal Biochem. 72:248–54
- Bullingham RE, Nicholls AJ, Kamm BR. (1998). Clinical pharmacokinetics of mycophenolate mofetil. Clin Pharmacokinet. 34:429–55
- Dahlqvist A. (1964). Method for assay of intestinal disaccharidases. Anal Biochem. 7:18–25
- Dridi I, Ben-Cherif W, Aouam K, et al. (2014). Circadian variation of mycophenolate mofetil pharmacokinetics in rats. Eur J Pharm Sci. 16:20–5
- Dridi I, Ben-Cherif W, Aouam K, et al. (2013). Circadian variation in haematological toxicity of the immunosuppressive agent “Mycophenolate Mofetil” in rats. J Appl Biomed. 11:71–8
- Ducloux D, Ottignon Y, Semhoun-Ducloux S, et al. (1998). Mycophenolate mofetil-induced villous atrophy. Transplantation. 66:1115–16
- Golconda MS, Valente JF, Bejarano P, et al. (1999). Mycophenolate mofetil-induced colonic ulceration in renal transplant recipients. Transplant Proc. 31:272–3
- He Z, Bolling L, Tonb D, et al. (2006). An automated method for the determination of intestinal disaccharidase and glucoamylase activities. J Auto Methods Manag. 1–4
- Herrero JL, Benlloch S, Bernardos A, et al. (2007). Gastrointestinal complications in liver transplant recipients: MITOS study. Transplant Proc. 39:2311–13
- Hoogerwerf WA. (2009). Role of biological rhythms in gastrointestinal health and disease. Rev Endocr Metab Disord. 10:293–300
- Hussain MM, Pan X. (2009). Clock genes, intestinal transport and plasma lipid homeostasis. Trends Endocrinol Metab. 20:177–85
- Inoue H, Sugioka N, Hayashida K, Yasumura T. (1997). Pharmacokinetic studies of mycophenolate mofetil in rat kidney allograft recipients. Int J Urol. 4:279–84
- Ishikawa Y, Suzuki M, Ono A, et al. (1983). Memory of the rhythmic change in activity of duodenal alkaline phosphatase in rats. J Nutr Sci Vitaminol. 29:85–90
- Karpowicz P, Zhang Y, Hogenesch JB, et al. (2013). The circadian clock gates the intestinal stem cell regenerative state. Cell Rep. 3:996–1004
- Kaufman MA, Korsmo HA, Olsen WA. (1980). Circadian rhythm of intestinal sucrase activity in rats. Mechanism of enzyme change. J Clin Invest. 65:1174–81
- Khelifi A, Dridi I, Maurel D, et al. (2013). Temporal influence of experimental exposure of wistar rats to hexachlororobenzene on the morphology and some enzyme activities of intestinal mucosae. Biol Rhythm Res. 45:455–63
- Kobayashi M, Saitoh H, Kobayashi M, et al. (2004). Cyclosporin A but not tacrolimus, inhibits the biliary excretion of mycophenolic acid glucuronide possibly mediated by multidrug resistance-associated protein 2 in rats. J Pharmacol Exp Ther. 309:1029–35
- Malekinejad H, Sheikhzadeh S, Hobbenaghi R. (2014). Silymarin attenuates mycophenolate mofetil-induced duodenal disorders in rats. Avicenna. J Phytomed. 4:170–81
- Manes T, Hoylaerts MF, Müller R, et al. (1998). Genetic complexity, structure, and characterization of highly active bovine intestinal alkaline phosphatases. J Biol Chem. 273:23353–60
- Martinková A, Lenhardt L, Mozes S. (2000). Effect of neonatal MSG treatment on day-night alkaline phosphatase activity in the rat duodenum. Physiol Res. 9:339–45
- Nelson W, Tong YL, Lee JK, Halberg F. (1979). Methods for cosinor-rhythmometry. Chronobiologia. 6:305–23
- Nguyen H, Le C, Nguyen H. (2009). Gastric antral vascular ectasia (watermelon stomach) – An enigmatic and often-overlooked cause of gastrointestinal bleeding in the elderly. Perm J Fall. 13:46–9
- Nishida T, Saito M, Suda M. (1978). Parallel between circadian rhythms of intestinal disaccharidases and food intake of rats under constant lighting conditions. Gastroeniterology. 74:224–7
- Pally C, Tanner M, Rizvi H, et al. (2001). Tolerability profile of sodium mycophenolate (ERL080) and mycophenolate mofetil with and without cyclosporine (Neoral) in the rat. Toxicology. 157:207–15
- Panda S, Hogenesch JB, Kay SA. (2002). Circadian rhythms from flies to human. Nature. 417:329–35
- Paoluzzi L, Singh AS, Price DK, et al. (2004). Influence of genetic variants in UGT 1A1 and UGT 1A9 on the in vivo glucuronidation of SN-38. J Clin Pharmacol. 8:854–60
- Parfitt JR, Jayakumar S, Driman DK. (2008). Mycophenolate mofetil-related gastrointestinal mucosal injury: Variable injury patterns, including graft-versus-host disease-like changes. Am J Surg Pathol. 32:1367–72
- Ponticelli C, Passerini P. (2005). Gastrointestinal complications in renal transplant recipients. Transpl Int. 18:643–50
- Ransom JT. (1995). Mechanism of action of mycophenolate mofetil. Ther Drug Monit. 17:681–4
- Refinetti R, Lissen GC, Halberg F. (2007). Procedures for numerical analysis of circadian rhythms. Biol Rhythm Res. 38:275–325
- Renes IB, Verburg M, Van Nispen DJ, et al. (2002). Distinct epithelial responses in experimental colitis: Implications for ion uptake and mucosal protection. Am J Physiol Gastrointest Liver Physiol. 283:G169–79
- Rodriguez-Castilla J, López-Nuevo M, Delgado MJ, et al. (1996). Changes in the ileal disaccharidase activities in rats after long-term ethanol feeding. Alcohol Alcohol. 31:69–74
- Saito M, Murakami E, Nishida T, et al. (1975). Circadian rhythms in digestive enzymes in the small intestine of rats. I. Patterns of the rhythms in various regions of the small intestine. J Biochem. 78:475–80
- Sánchez de Medina F, Martínez-Augustin O, González R, et al. (2004). Induction of alkaline phosphatase in the inflamed intestine: A novel pharmacological target for inflammatory bowel disease. Biochem Pharmacol. 68:2317–26
- Savarino V, Mela GS, Zentilin P, et al. (1996). Circadian gastric acidity in Helicobacter pylori positive ulcer patients with and without gastric metaplasia in the duodenum. Gut. 39:508–12
- Shefer S, Hauser S, Lapar V, Mosbach EH. (1972). Diurnal variation of HMG CoA reductase activity in rat intestine. J Lipid Res. 13:571–3
- Shirazi SP, Colston KW, Butterworth PJ. (1978). Alkaline phosphatase: a possible transport protein for inorganic phosphate. Biochem Soc Trans. 6:933–5
- Silverblatt ER, Conklin K, Gray GMI. (1974). Suerase precursor in human jejunal crypts. J Clin Intvest 53:76a. (Abstr.)
- Stern ST, Tallman MN, Miles KK, et al. (2007). Gender-related differences in mycophenolate mofetil-induced gastrointestinal toxicity in rats. Drug Metab Dispos. 35:449–54
- Sun DF, Fujigaki Y, Fujimoto T, et al. (2002). Mycophenolate mofetil inhibits regenerative repair in uranyl acetate-induced acute renal failure by reduced interstitial cellular response. Am J Pathol. 161:217–27
- Sugioka N, Chen SH, Hayashida K, et al. (1995). Stability and pharmacokinetic studies of a new immunosuppressant, mycophenolate mofetil (RS-61443), in rats. Biopharm Drug Dispos. 16:591–601
- Sugioka N, Koyama H, Ohta T, et al. (1996). Pharmacokinetics of mycophenolate mofetil, a new immunosuppressant, in rats. J Pharm Sci. 85:335–8
- Thompson CI, Fleming RL, Franken KA, et al. (1989). Dual 24-hour feeding response to 2DG in rats: Daytime increase and nighttime decrease. Physiol Behav. 45:155–61
- Touitou Y, Smolensky MH, Portaluppi F. (2008). Ethics, standards, and procedures in human and animal in chronobiology researching. Chronobiol Int. 25:851–67
- Vachon C, Savoie L. (1987). Circadian variation of food intake and digestive tract contents in the rat. Physiol Behav. 39:629–32
- Varga J, Tóth Š Jr, Tóth Š, et al. (2012). The relationship between morphology and disaccharidase activity in ischemia-reperfusion injured intestine. Acta Biochim Pol. 59:631–8
- Xu Z, Huang C, Turner LR, et al. (2013). Is diurnal temperature range a risk factor for childhood diarrhea? PLoS One. 8:e64713
- Yamagishi F, Komoda T, Alpers DH. (1994). Secretion and distribution of rat intestinal surfactant-like particles after fat feeding. Am J Physiol. 266:G944–52