publication . Article . 2005

Myocardial regeneration in Ambystoma mexicanum after surgical injury

Vargas-González, Alvaro; Prado-Zayago, Esteban; León-Olea, Martha; Guarner-Lans, Verónica; Cano-Martínez, Agustina;
Open Access Spanish
  • Published: 01 Sep 2005
  • Publisher: Elsevier
Abstract
Se realizó resección ventricular en el corazón de Ambystoma mexicanum, se evaluó si la restitución del tejido resulta de hipertrofia o de hiperplasia. Por medio de una tinción tricrómica se encontró que 5 días después del daño en el espacio de la resección se encontró un coágulo rodeado de fibras de colágena (83 ± 6%), músculo (10 ± 3%) y zonas sin tejido (7 ± 2%). Una proporción de 50 ± 4 y 90 ± 2% correspondió a tejido muscular 10 y 30 días después de la lesión. La tinción con bis-Benzimida indicó que en la zona lesionada hay proliferación celular. En tanto que la inmunohistoquímica doble para actina sarcomérica a y antígeno nuclear de proliferación celular mo...
Subjects
free text keywords: Cardiomyocytes, Cardiomiocitos, Cell proliferation, Ventricular resection, Proliferación celular, Resección ventricular
20 references, page 1 of 2

1. THOUVENY Y, TASSAVA RA: Regeneration through 15. OBERPRILLER JO, OBERPRILLER JC: Response of the phylogenesis. En Ferretti P, Géraudie J. “Cellular adult newt ventricle to injury. J Exp Zool 1974; and molecular basis of regeneration. From inver- 187: 249-260. tebrates to humans”. New York, John Wiley & 16. CAMERON IL: Cell proliferation and renewal in Sons, 1998; 9-43. the mammalian body. En Cameron IL, Thrasher

2. BALINSKY BI: Introducción a la embriología. Bar- JD. “Cellular and molecular renewal in the macelona, Omega, 1978; 559-587. mmalian body”. New York, Academic Press,

3. SCADDING SR: Phylogenetic distribution of limb 1971; 45-85. regeneration capacity in adult amphibia. J Exp 17. STEVENS HCE: Use of colchicine for the measureZool 1977; 202: 57-68. ment of mitotic rate in the intestinal epithelium.

4. HOURDRY J: Evolution of the amphibian regene- Am J Anat 1961; 108: 231-244. rative capacity throughout metamorphosis. En 18. ARAKI T, YAMAMOTO A, YAMADA M: Accurate deInoue S, Shirai T, Egar M, Aiyama S, Géraudie J, termination of DNA content in single nuclei staiNobunaga T, Sato NL: Proceedings of 6th Singer ned with Hoechst 33258 fluorochrome at high salt Symposium. Okada, Maebashi, 1988; 13-22. concentration. Histochemistry 1987; 87: 331-338.

5. GHOSH S, THOROGOOD P, FERRETI P: Regenerative 19. LILLYWHITE HB, ZIPPEL KC, FARRELL AP: Resting capability of upper and lower jaws in the newt. and maximal heart rates in ectothermic vertebraInt J Dev Biol 1994; 38: 479-490. tes. Comp Biochem Physiol A Mol Int Physiol

6. REYER RW: Regeneration of lens in the amphi- 1999; 124: 369-382. bian eye. Quart Rev Biol 1954; 29: 1-46. 20. OSTADAL B, RYCHTEROVÁ V, POUPA O: Isoprotere-

7. MITASHOV VI: Mechanism of retina regeneration nol-induced acute experimental cardiac necrosis in urodeles. Int J Dev Biol 1996; 40: 833-844. in the turtle (Testudo horsfieldi). Am Heart J 1968;

8. RUMYANTSEV PP: Interrelations of the prolifera- 76: 645-649. tion and differentiation processes during cardiac 21. ROMENSKII O: Blood supply of the compact and myogenesis and regeneration. Int Rev Cytol 1977; spongy myocardium of fish, amphibia and repti51: 187-273. les. Arkhiv Anatomii Gistologii i Embriologii

9. KAJSTURA J, ZHANG X, REISS K, SZOKE E, LI P, 1978; 75: 91-95. LAGRASTA C, ET AL: Myocyte cellular hyperplasia 22. VICTOR S, NAYAK VM, RAJASINGH R: Evolution and myocyte cellular hypertrophy contribute to of the ventricles. Texas Heart Inst J 1999; 23: chronic ventricular remodelling in coronary ar- 168-175. tery narrowing-induced cardiomyopathy in rats. 23. SEDMERA D, PEXIEDER T, VUILLEMIN M, THOMPSON Circ Res 1994; 74: 383-400. RP, ANDERSON RH: Developmental patterning of

10. QUAINI F, CIGOLA E, LAGRASTA C, SACCANI G, QUAI- the myocardium. Anat Rec 2000; 258: 319-337. NI E, ROSSI C, ET AL: End-stage cardiac failure in 24. BEN-SHACHAR G, ARCILLA RA, LUCAS RV, MANAhumans is coupled with the induction of prolife- SEK FJ: Ventricular trabeculations in the chick rating cell nuclear antigen and nuclear mitotic embryo heart and their contribution to ventricudivision in ventricular myocytes. Circ Res 1994; lar and muscular septal development. Circ Res 75: 1050-1063. 1985; 57: 759-766.

11. SASAKI R, MORISHITA T, ICHIKAWA S, YAMAGATA S: 25. POUPA O, LINDSTRÖM L: Comparative and scaling Autoradiographic studies and mitosis of heart aspects of heart and body weights with reference muscle cells in experimental cardiac hypertrophy. to blood supply of cardiac fibers. Comp Biochem Tohoku J Exp Med 1970; 102: 159-167. Physiol A 1983; 76: 413-421.

12. REISS K, KAJSTURA J, CAPASSO JM, MARINO TA, AN- 26. HIRAKOW R: The fine structure of the Necturus VERSA P: Impairment of myocyte contractility follo- (amphibia) heart. Am J Anat 1971; 132: 401-422. wing coronary artery narrowing is associated with 27. FLINK IL: Cell cycle reentry of ventricular and activation of the myocyte IGF1 autocrine system, atrial cardiomyocytes and cells within the epicarenhanced expression of late growth related genes, dium following amputation of the ventricular apex DNA synthesis, and myocyte nuclear mitotic divi- in the axolotl, Ambystoma mexicanum: confocal sion in rats. Exp Cell Res 1993; 207: 348-360. microscopic immunofluorescent image analysis of

13. REISS K, MEGGS LG, LI P, OLIVETTI G, CAPASSO bromodeoxyuridine-labeled nuclei. Anat Embryol JM, ANVERSA P: Upregulation eof dIGiFg1, IrGaF1p-reh-ic.c(oBemrl)2002; 205: 235-244. ceptor, and late growth related genes in ventricu- 28. POSS K, WILSON L, KEATING M: Heart regeneralar myocytes acutely after infarction in rats. J Cell tion in zebrafish. Science 2002; 298: 2188-2190. Physiol 1994; 158: 160-168. 29. OBERPRILLER J, OBERPRILLER J, AREFYEVA A, MI-

14. BECKER RO, CHAPIN S, SHERRY R: Regeneration TASHOV VI, CARLSON B: Nuclear characteristics of the ventricular myocardium in amphibians. of cardiac myocytes following the proliferative Nature 1974; 248: 145-147. response to mincing of the myocardium in the adult newt, Notophthalmus viridescens. Cell Tissue Res 1988; 253: 619-624.

30. NAG A, HEALY C, CHENG M: DNA synthesis and mitosis in adult amphibian cardiac muscle cells in vitro. Science 1979; 205: 1281-1282.

20 references, page 1 of 2
Abstract
Se realizó resección ventricular en el corazón de Ambystoma mexicanum, se evaluó si la restitución del tejido resulta de hipertrofia o de hiperplasia. Por medio de una tinción tricrómica se encontró que 5 días después del daño en el espacio de la resección se encontró un coágulo rodeado de fibras de colágena (83 ± 6%), músculo (10 ± 3%) y zonas sin tejido (7 ± 2%). Una proporción de 50 ± 4 y 90 ± 2% correspondió a tejido muscular 10 y 30 días después de la lesión. La tinción con bis-Benzimida indicó que en la zona lesionada hay proliferación celular. En tanto que la inmunohistoquímica doble para actina sarcomérica a y antígeno nuclear de proliferación celular mo...
Subjects
free text keywords: Cardiomyocytes, Cardiomiocitos, Cell proliferation, Ventricular resection, Proliferación celular, Resección ventricular
20 references, page 1 of 2

1. THOUVENY Y, TASSAVA RA: Regeneration through 15. OBERPRILLER JO, OBERPRILLER JC: Response of the phylogenesis. En Ferretti P, Géraudie J. “Cellular adult newt ventricle to injury. J Exp Zool 1974; and molecular basis of regeneration. From inver- 187: 249-260. tebrates to humans”. New York, John Wiley & 16. CAMERON IL: Cell proliferation and renewal in Sons, 1998; 9-43. the mammalian body. En Cameron IL, Thrasher

2. BALINSKY BI: Introducción a la embriología. Bar- JD. “Cellular and molecular renewal in the macelona, Omega, 1978; 559-587. mmalian body”. New York, Academic Press,

3. SCADDING SR: Phylogenetic distribution of limb 1971; 45-85. regeneration capacity in adult amphibia. J Exp 17. STEVENS HCE: Use of colchicine for the measureZool 1977; 202: 57-68. ment of mitotic rate in the intestinal epithelium.

4. HOURDRY J: Evolution of the amphibian regene- Am J Anat 1961; 108: 231-244. rative capacity throughout metamorphosis. En 18. ARAKI T, YAMAMOTO A, YAMADA M: Accurate deInoue S, Shirai T, Egar M, Aiyama S, Géraudie J, termination of DNA content in single nuclei staiNobunaga T, Sato NL: Proceedings of 6th Singer ned with Hoechst 33258 fluorochrome at high salt Symposium. Okada, Maebashi, 1988; 13-22. concentration. Histochemistry 1987; 87: 331-338.

5. GHOSH S, THOROGOOD P, FERRETI P: Regenerative 19. LILLYWHITE HB, ZIPPEL KC, FARRELL AP: Resting capability of upper and lower jaws in the newt. and maximal heart rates in ectothermic vertebraInt J Dev Biol 1994; 38: 479-490. tes. Comp Biochem Physiol A Mol Int Physiol

6. REYER RW: Regeneration of lens in the amphi- 1999; 124: 369-382. bian eye. Quart Rev Biol 1954; 29: 1-46. 20. OSTADAL B, RYCHTEROVÁ V, POUPA O: Isoprotere-

7. MITASHOV VI: Mechanism of retina regeneration nol-induced acute experimental cardiac necrosis in urodeles. Int J Dev Biol 1996; 40: 833-844. in the turtle (Testudo horsfieldi). Am Heart J 1968;

8. RUMYANTSEV PP: Interrelations of the prolifera- 76: 645-649. tion and differentiation processes during cardiac 21. ROMENSKII O: Blood supply of the compact and myogenesis and regeneration. Int Rev Cytol 1977; spongy myocardium of fish, amphibia and repti51: 187-273. les. Arkhiv Anatomii Gistologii i Embriologii

9. KAJSTURA J, ZHANG X, REISS K, SZOKE E, LI P, 1978; 75: 91-95. LAGRASTA C, ET AL: Myocyte cellular hyperplasia 22. VICTOR S, NAYAK VM, RAJASINGH R: Evolution and myocyte cellular hypertrophy contribute to of the ventricles. Texas Heart Inst J 1999; 23: chronic ventricular remodelling in coronary ar- 168-175. tery narrowing-induced cardiomyopathy in rats. 23. SEDMERA D, PEXIEDER T, VUILLEMIN M, THOMPSON Circ Res 1994; 74: 383-400. RP, ANDERSON RH: Developmental patterning of

10. QUAINI F, CIGOLA E, LAGRASTA C, SACCANI G, QUAI- the myocardium. Anat Rec 2000; 258: 319-337. NI E, ROSSI C, ET AL: End-stage cardiac failure in 24. BEN-SHACHAR G, ARCILLA RA, LUCAS RV, MANAhumans is coupled with the induction of prolife- SEK FJ: Ventricular trabeculations in the chick rating cell nuclear antigen and nuclear mitotic embryo heart and their contribution to ventricudivision in ventricular myocytes. Circ Res 1994; lar and muscular septal development. Circ Res 75: 1050-1063. 1985; 57: 759-766.

11. SASAKI R, MORISHITA T, ICHIKAWA S, YAMAGATA S: 25. POUPA O, LINDSTRÖM L: Comparative and scaling Autoradiographic studies and mitosis of heart aspects of heart and body weights with reference muscle cells in experimental cardiac hypertrophy. to blood supply of cardiac fibers. Comp Biochem Tohoku J Exp Med 1970; 102: 159-167. Physiol A 1983; 76: 413-421.

12. REISS K, KAJSTURA J, CAPASSO JM, MARINO TA, AN- 26. HIRAKOW R: The fine structure of the Necturus VERSA P: Impairment of myocyte contractility follo- (amphibia) heart. Am J Anat 1971; 132: 401-422. wing coronary artery narrowing is associated with 27. FLINK IL: Cell cycle reentry of ventricular and activation of the myocyte IGF1 autocrine system, atrial cardiomyocytes and cells within the epicarenhanced expression of late growth related genes, dium following amputation of the ventricular apex DNA synthesis, and myocyte nuclear mitotic divi- in the axolotl, Ambystoma mexicanum: confocal sion in rats. Exp Cell Res 1993; 207: 348-360. microscopic immunofluorescent image analysis of

13. REISS K, MEGGS LG, LI P, OLIVETTI G, CAPASSO bromodeoxyuridine-labeled nuclei. Anat Embryol JM, ANVERSA P: Upregulation eof dIGiFg1, IrGaF1p-reh-ic.c(oBemrl)2002; 205: 235-244. ceptor, and late growth related genes in ventricu- 28. POSS K, WILSON L, KEATING M: Heart regeneralar myocytes acutely after infarction in rats. J Cell tion in zebrafish. Science 2002; 298: 2188-2190. Physiol 1994; 158: 160-168. 29. OBERPRILLER J, OBERPRILLER J, AREFYEVA A, MI-

14. BECKER RO, CHAPIN S, SHERRY R: Regeneration TASHOV VI, CARLSON B: Nuclear characteristics of the ventricular myocardium in amphibians. of cardiac myocytes following the proliferative Nature 1974; 248: 145-147. response to mincing of the myocardium in the adult newt, Notophthalmus viridescens. Cell Tissue Res 1988; 253: 619-624.

30. NAG A, HEALY C, CHENG M: DNA synthesis and mitosis in adult amphibian cardiac muscle cells in vitro. Science 1979; 205: 1281-1282.

20 references, page 1 of 2
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