Srilatha Balasubramanian, Adaikan P Ganesan, Li Ling, Moore Philip K
Department of Obstetrics & Gynaecology, National University Hospital, National University of Singapore, Singapore.
J Sex Med. 2007 Sep;4(5):1304-11. doi: 10.1111/j.1743-6109.2007.00561.x. Epub 2007 Jul 26.
In a pilot study, we found that the novel gasotransmitter, hydrogen sulfide (H2S), had a vasodilatory and proerectile action on the cavernosum. In the present work, we explored the ability of the cavernosum to synthesize H2S and its mechanism on the cavernosal pathways.
To evaluate the physiopharmacological responses and mechanism in the erectile function of H2S in rabbit cavernosum.
Rabbit corpus cavernosum (CC) smooth muscle tissue (N = 5) was homogenized and incubated with L-cysteine (10 mM) and pyridoxal 5'-phosphate (2 mM) to detect H2S formation. In isometric tension studies on rabbits (N = 12), the effect of sodium hydrogen sulfide (NaHS; stable H2S donor, 100 microM-3.2 mM) was evaluated on the relaxant and contractile pathways in the cavernous smooth muscle using standard pharmacological tools.
In vitro evidences for cavernosal H2S formation and proerectile pharmacological effects.
H2S was readily synthesized in the rabbit CC (2.1 +/- 0.4 nmol/mg protein). In organ bath studies, NaHS consistently relaxed the rabbit CC in a concentration-dependent manner. MDL 12,330A and 1-H-[1,2,4]-oxadiazolo-[4,3-a]-quinoxalin-1-one inhibited the NaHS relaxation by 22.5% and 14.7%, respectively. All three enzyme inhibitors (aminooxyacetic acid [AOAA], beta-cyanoalanine [beta-CA], and DL-propargylglycine [PAG][1 mM]) markedly increased the noradrenergic contractile neurotransmission of CC strips to field stimulation with minimal reversal by cysteine (1 mM) indicating the possible inherent inhibition of the relaxant H2S formation. AOAA, beta-CA, or PAG had no significant effect on nitrergic relaxation of noradrenaline-precontracted CC strips.
These pioneering studies provide evidence for the endogenous formation of H2S and its proerectile relaxant effect on the cavernosum, with the possibility of involvement of the cyclic adenosine monophosphate pathway.
在一项初步研究中,我们发现新型气体递质硫化氢(H₂S)对海绵体具有血管舒张和促进勃起的作用。在本研究中,我们探讨了海绵体合成H₂S的能力及其在海绵体途径中的作用机制。
评估H₂S对兔海绵体勃起功能的生理药理学反应及机制。
将兔海绵体(CC)平滑肌组织(N = 5)匀浆,并与L-半胱氨酸(10 mM)和磷酸吡哆醛(2 mM)一起孵育以检测H₂S的生成。在对兔(N = 12)进行的等长张力研究中,使用标准药理学工具评估硫化氢钠(NaHS;稳定的H₂S供体,100 μM - 3.2 mM)对海绵体平滑肌舒张和收缩途径的影响。
海绵体中H₂S生成及促进勃起的药理学作用的体外证据。
兔CC中可轻易合成H₂S(2.1 ± 0.4 nmol/mg蛋白质)。在器官浴研究中,NaHS始终以浓度依赖的方式使兔CC舒张。MDL 12,330A和1-H-[1,2,4]-恶二唑并-[4,3-a]-喹喔啉-1-酮分别使NaHS诱导的舒张作用降低22.5%和14.7%。所有三种酶抑制剂(氨基氧乙酸[AOAA]、β-氰基丙氨酸[β-CA]和DL-炔丙基甘氨酸[PAG][1 mM])均显著增加CC条带对场刺激的去甲肾上腺素能收缩性神经传递,半胱氨酸(1 mM)的逆转作用最小,表明可能存在对舒张性H₂S生成的内在抑制。AOAA、β-CA或PAG对去甲肾上腺素预收缩的CC条带的一氧化氮能舒张作用无显著影响。
这些开创性研究为H₂S的内源性生成及其对海绵体的促进勃起舒张作用提供了证据,且可能涉及环磷酸腺苷途径。
