Prolaktyna i inne regulatory wchłaniania wapnia

• Authors: Barbara Dolińska , Katarzyna Łopata , Florian Ryszka

Title variants

EN

Prolactin and other regulators of calcium absorption

• Languages of publication: PL

Abstracts

PL

Wchłanianie wapnia regulują liczne czynniki endogenne i egzogenne, m.in. prolaktyna. Jak wynika z wielu badań, może ona stymulować transport wapnia w jelicie cienkim w warunkach in vitro oraz in vivo. Jest to szczególnie ważne w okresie wzrostu zapotrzebowania na wapń w okresie ciąży i laktacji. W licznych doniesieniach wskazano na rolę prolaktyny w zachowaniu homeostazy wapniowej.

EN

Absorption of calcium is regulated by many endogenous and exogenous factors. Prolactin is important regulator. Numerous studies indicate that prolactin can stimulate calcium transport in the small intestine in vitro and in vivo. This is especially important during the growing demand for calcium in pregnancy and in lactation. There is report the role of prolactin in maintaining calcium homeostasis.

Keywords

EN

absorption; calcium (Ca); osteoporosis; osteoporoza; prolactin; wapń (Ca); wchłanianie; prolaktyna (PRL)

Discipline

• MEDICINE: MEDICINE

• Publisher: Śląski Uniwersytet Medyczny w Katowicach
• Journal: Annales Academiae Medicae Silesiensis
• Year: 2012
• Volume: 66
• Issue: 1
• Pages: 52–56

Contributors

author

Barbara Dolińska

• Zakład Technologii Postaci Leku Wydziału Farmaceutycznego z Oddziałem Medycyny Laboratoryjnej Śląskiego Uniwersytetu Medycznego w Katowicach, Farmaceutyczny Zakład Naukowo-Produkcyjny „Biochefa”, Sosnowiec

author

Katarzyna Łopata

• ul. Ścigały 45a/5 40-208 Katowice tel. +48 781 233 781

author

Florian Ryszka

• Farmaceutyczny Zakład Naukowo-Produkcyjny „Biochefa”, Sosnowiec

References

• 1. Spangler M., Phillips B., Ross M., Moores K. Calcium supplementation in postmenopausal women to reduce the risk of osteoporotic fractures. Am. J. Health. Syst. Pharm. 2011; 68: 309–318.
• 2. Dolińska B., Świtek A., Dragan S., Ryszka F., Kołacz R., Sokoła B. Wpływ prolaktyny na gęstość mineralną kości (BMD) i niektóre markery biochemiczne samic szczura po owariektomii. Czech. J. Anim. Sci. 2010; 55: 83–88.
• 3. Bronner F. Recent developments in intestinal calcium absorption. Nutr. Rev. 2009; 67: 109–113.
• 4. Wilkens M., Mrochen N., Breves G., Schröder B. Gastrointestinal calcium absorption in sheep is mostly intensitive to an alimentary induced challenge of calcium homeostasis. Comp. Biochem. Physiol. B Biochem. Mol. Biol. 2011; 158: 199–207.
• 5. Dolińska B., Mikulska A., Ryszka F. Promotory wchłaniania wapnia. Ann. Acad. Med. Siles. 2008; 64: 89–95.
• 6. Dolińska B., Woźniak D., Ryszka F. Wchłanianie wapnia w jelitach. Farm. Przegl. Nauk. 2009; 10: 35–38.
• 7. Charoenphandhu N., Krishnamra N. Prolactin is an important regulator of intestinal calcium transport. Can. J. Physiol. Pharmacol. 2007; 85: 569–581.
• 8. Charoenphandhu N., Limlomwongse L., Krishnamra N. Prolactin directly stimulates transcellular active calcium transport in the duodenum of female rats. Can. J. Physiol. Pharmacol. 2001; 79: 430–438.
• 9. Tanrattana Ch., Charoenphandhu N., Limlomwongse L., Krishnamra N. Prolactin directly stimulated the solvent drag-induced calcium transport in the duodenum of female rats. Biochim. Biophys. Acta. 2004; 1665: 81–91.
• 10. Charoenphandhu N., Limlomwongse L., Krishnamra N. Prolactin directly enhanced Na+/K+- and Ca2+-ATPase activities in the duodenum of female rats. Can. J. Physiol. Pharmacol. 2006; 84: 555–563.
• 11. Pahuja DN., DeLuca HF. Stimulation of intestinal calcium transport and bone calcium mobilization by prolactin in vitamin D-defi cient rats. Science 1981; 214: 1038–1039.
• 12. Ajibade D., Dhawan P., Fechner A., Meyer M., Pike W., Christakos S. Evidence for a role of prolactin in calcium homeostasis: regulation of intestinal transient receptor potential vanilloid type 6, intestinal calcium absorption, and the 25-hydroxyvitamin D3 1μ-hydroxylase gene by prolactin. Endocrinology 2010; 7: 2974–2984.
• 13. Jantarajit W., Thongon N., Pandaranandaka J., Teerapornpuntakit J., Krishnamra N., Charoenphandhu N. Prolactin-stimulated transepithelial calcium transport in duodenum and Caco-2 monolayer are mediated by the phosphoinositide 3-kinase pathway. Am. J. Physiol. Endocrinol. Metab. 2007; 293: 372–384.
• 14. Charoenphandhu N., Nakkrasae L., Kraidith K. i wsp. Two-step stimulation of intestinal Ca2+ absorption during lactation by long-term prolactin exposure and suckling-induced prolactin surge. Am. J. Physiol. Endocrinol. Metab. 2009; 297: 609–619.
• 15. Nakkrasae L., Thongon N., Thongbunchoo J., Krishnamra N., Charoenphandhu N. Transepithelial calcium transport in prolactin – exposed intestine – like Caco-2 monolayer after combinatorial knockdown of TRPV5, TRPV6 and Cav1.3. J. Physiol. Sci. 2010; 60: 9–17.
• 16. Teerapornpuntakit J., Dorkkam N., Wongdee K., Krishnamra N., Chroenphandhu N. Endurance swimming stimulates transepithelial calcium transport and alters the expression of genes related to calcium absorption in the intestine of rats. Am. J. Physiol. Endocrinol. Metab. 2009; 296: 775–786.
• 17. Hoenderop J., Nilius B., Bindels R. Calcium absorption across epithelia. Physiol. Rev. 2005; 85: 373–422.
• 18. Kikuchi M., Nakano Y., Nambo Y. i wsp. Production of calcium maintenance factor Stanniocalcin – (STC1) by the equine endometrium during the early pregnant period. J. Reprod. Dev. 2011; 57: 203–211.
• 19. Kumar V., Prasad R. Thyroid hormones stimulate calcium transport systems in rat intestine. Biochim. Biophys. Acta. 2003; 1639: 185–194.

• Document Type: article