Kiyono Yasushi, Iida Yasuhiko, Kawashima Hidekazu, Ogawa Mikako, Tamaki Nagara, Nishimura Hiroshi, Saji Hideo
Radioisotope Laboratory, Kyoto Prefectural University of Medicine, Japan.
Eur J Nucl Med Mol Imaging. 2002 Aug;29(8):999-1005. doi: 10.1007/s00259-002-0798-1. Epub 2002 May 17.
Cardiac scintigraphic studies with iodine-123 labeled metaiodobenzylguanidine ([(123)I]MIBG) have demonstrated global and regionally pronounced decreases in myocardial accumulation of radioactivity in diabetes. The aim of this study was to investigate the cause of the regional differential decrease in accumulation. To this end, we investigated the global and regional myocardial distribution of [(125)I]MIBG in GK/Crj (GK) rats [a model of non-insulin-dependent diabetes mellitus (NIDDM)] and assessed the responsibility of regional myocardial blood flow, myocardial and plasma norepinephrine (NE) content, and norepinephrine transporter (NET) function for the regional variations in [(125)I]MIBG accumulation. To investigate the responsibility of myocardial blood flow for the alterations in MIBG accumulation, dual-isotope autoradiographic studies with [(125)I]MIBG and technetium-99m hexakis-2-methoxy-2-isobutylisonitrile (MIBI), a tracer for the measurement of myocardial blood flow, were carried out in GK rats and control rats. The results in respect of the uptake of radioactivity into various myocardial regions were expressed as distribution absorption ratios [DAR = (radioactivity of tissue/g of tissue) x (body weight/total injected dose)]. In control rats, uptake of [(125)I]MIBG was significantly higher in the inferior wall than in the anterior wall (anterior wall, 6.35 +/- 0.90; inferior wall, 8.12 +/- 1.27: P < 0.001). On the other hand, in GK rats, uptake of [(125)I]MIBG was similar between the anterior wall and the inferior wall (anterior wall, 4.91 +/- 0.71; inferior wall, 4.81 +/- 0.69). Compared with control rats, uptake of [(125)I]MIBG in GK rats was decreased in both the anterior wall and the inferior wall. Uptake of (99m)Tc-MIBI was not significantly different between the anterior and inferior walls in control (anterior wall, 17.9 +/- 4.42; inferior wall, 18.1 +/- 4.52) and GK rats (anterior wall, 16.6 +/-8.03; inferior wall, 16.7 +/- 7.90), indicating that myocardial blood flow did not change regionally in either control or GK rats, and that the blood flow was not responsible for the differential decrease in MIBG accumulation in GK rats. Cardiac and plasma NE levels were measured using an HPLC-electrochemical detection system. The cardiac and plasma NE concentrations were not significantly different between control (anterior wall, 347 +/- 56 ng/g; inferior wall, 354 +/- 31 ng/g; plasma 9.38 +/- 2.10 ng/ml) and GK rats (anterior wall, 323 +/- 62 ng/g; inferior wall, 344 +/- 35 ng/g; plasma, 9.41 +/- 2.39 ng/ml). The density and affinity of NET were investigated by studying the binding of [(3)H]desipramine to cardiac membranes. The B(max) (fmol/mg protein) in the inferior wall was significantly higher than that in the anterior wall in the control rats (anterior wall, 364 +/- 28; inferior wall, 459 +/- 36: P < 0.05). On the other hand, there was no significant difference in the B(max) value between the anterior and inferior walls in GK rats (anterior wall, 263 +/- 42; inferior wall, 251 +/- 27). In conclusion, myocardial MIBG uptake was differentially reduced in GK rats, and this decrease was associated with a decrease in NET density, but the regional myocardial blood flow and the NE concentration were not responsible for the alterations in MIBG uptake. Thus, NET density was identified as the factor responsible for decreases in MIBG accumulation.
使用碘 - 123标记的间碘苄胍([(123)I]MIBG)进行的心脏闪烁扫描研究表明,糖尿病患者心肌放射性摄取在整体和局部均有明显降低。本研究旨在探讨放射性摄取局部差异降低的原因。为此,我们研究了[(125)I]MIBG在GK/Crj(GK)大鼠[非胰岛素依赖型糖尿病(NIDDM)模型]心脏的整体和局部分布,并评估了局部心肌血流、心肌和血浆去甲肾上腺素(NE)含量以及去甲肾上腺素转运体(NET)功能对[(125)I]MIBG摄取局部差异的影响。为研究心肌血流对MIBG摄取改变的影响,我们在GK大鼠和对照大鼠中进行了[(125)I]MIBG与锝 - 99m六甲基 - 2 - 甲氧基 - 2 - 异丁基异腈(MIBI,一种用于测量心肌血流的示踪剂)的双同位素放射自显影研究。将各心肌区域放射性摄取结果表示为分布吸收比[DAR =(组织放射性/组织克数)×(体重/总注射剂量)]。在对照大鼠中,[(125)I]MIBG在下壁的摄取显著高于前壁(前壁,6.35±0.90;下壁,8.12±1.27:P < 0.001)。另一方面,在GK大鼠中,[(125)I]MIBG在前壁和下壁的摄取相似(前壁,4.91±0.71;下壁,4.81±0.69)。与对照大鼠相比,GK大鼠前壁和下壁[(125)I]MIBG的摄取均降低。对照大鼠(前壁,17.9±4.42;下壁,18.1±4.52)和GK大鼠(前壁,16.6±8.03;下壁,16.7±7.90)前壁和下壁之间(99m)Tc - MIBI的摄取无显著差异,表明对照大鼠和GK大鼠局部心肌血流均未改变,且血流与GK大鼠MIBG摄取的差异降低无关。使用高效液相色谱 - 电化学检测系统测量心脏和血浆NE水平。对照大鼠(前壁,347±56 ng/g;下壁,354±31 ng/g;血浆9.38±2.10 ng/ml)和GK大鼠(前壁,323±62 ng/g;下壁,344±35 ng/g;血浆,9.41±2.39 ng/ml)的心脏和血浆NE浓度无显著差异。通过研究[(3)H]去甲丙咪嗪与心脏膜的结合来研究NET的密度和亲和力。对照大鼠下壁的B(max)(fmol/mg蛋白质)显著高于前壁(前壁,364±28;下壁,459±36:P < 0.05)。另一方面,GK大鼠前壁和下壁的B(max)值无显著差异(前壁,263±42;下壁,251±27)。总之,GK大鼠心肌MIBG摄取有差异地降低,这种降低与NET密度降低有关,但局部心肌血流和NE浓度与MIBG摄取的改变无关。因此,NET密度被确定为MIBG摄取降低的原因。
