大鼠睾丸间质细胞的自体吞噬活动

本文结合超微结构和细胞化学观察,研究大鼠睾丸间质细胞(Leydig细胞)中溶酶体的结??构与功能。观察结果表明,大鼠睾丸间质细胞中高尔基体非常发达,在高尔基体的成熟面存在着CMP酶阳性反应的GERL系统,说明这种细胞有不断产生溶酶体的能力。细胞化学结果也证实在睾丸间质细胞有较多的初级和次级溶酶体。睾丸间质细胞不仅有较多的溶酶体,而且还有相当数量的自噬小体,存在着活跃的自体吞噬活动。自噬小体的界膜来源于特化的光面内质网或高尔基体膜囊,包围的内容物主要是光面内质网和少量线粒体。当自噬小体与溶酶体融合后即成为自体吞噬泡,由于酶的消化作用,自体吞噬泡内的细胞器有一系列形态变化。根据CMP酶细胞化学反应,可以区分自噬小体和自体吞噬泡,后者是一种次级溶酶体,呈CMP酶阳性反应。睾丸间质细胞是分泌雄性激素的内分泌细胞,其光面内质网和线粒体在类固醇激素分泌中起重要作用,自体吞噬活动的结果是去除部分内质网和线粒体,可能在细胞水平上起着对雄性激素分泌的调节作用。     

INTESTINAL TRANSPORT OF ANTIBODIES IN THE NEWBORN RAT

Evidence has been reported that the proximal small intestine of the neonatal rat selectively transports antibodies into the circulation. This study describes the morphology of the absorptive epithelial cells in this region of the intestine and their transport of several immunoglobulin tracers: ferritin-conjugated immunoglobulins (IgG-Ft) and antiperoxidase antibodies. Cells exposed to rat IgG-Ft bound the tracer on the membrane of tubular invaginations of the apical cell surface. Tubular and coated vesicles within the cell also contained the tracer, as did the intercellular spaces. Uptake of tracer was highly selective and occurred only with rat or cow IgG-Ft; when cells were exposed to chicken IgG-Ft, ferritin-conjugated bovine serum albumin, or free ferritin, tracer did not enter the cell or appear in the intercellular spaces. Experiments with rat and chicken antiperoxidase showed a similar selective uptake and transport of only the homologous antibody. When cells from the distal small intestine were exposed to the tracers, all tracers were absorbed nonselectively but none were released from the cells. Cells from the proximal small intestine of the 22-day-old rat failed to absorb even rat IgG-Ft. A model is presented for selective antibody transport in proximal cells of the neonatal rat in which antibodies are selectively absorbed at the apical cell surface by pinocytosis within tubular vesicles. The antibodies are then transferred to the intercellular space within coated vesicles. Distal cells function only to digest proteins nonselectively.     

低温对大鼠骨骼肌能量代谢的影响——Ⅰ.高能磷酸化合物含量的变化

本实验选择对低温比较敏感的骨骼肌组织作为实验对象。将19只大鼠随机分成3组,其右后肢经冷冻处理使组织温度分别达 5℃、0℃及-5℃,于复温后不同时间测定骨骼肌中四种高能磷酸化合物AMP,ADP、ATP及CP的含量。结果表明,大鼠骨骼肌组织中高能磷酸化合物含量随冷冻时组织最低温度的下降而不同程度的减少,并且具有明显的时相过程。复温后即刻至4小时下降迅速,4～12小时三组值较为接近,其后随时间延长而明显分离。 5℃组恢复得早而且明显,0℃组恢复程度次于 5℃组,-5℃组含量下降最明显而且几乎不恢复。提示:低温使骨骼肌组织能量的产生和贮存过程受到影响。     

SUBCELLULAR ANALYSIS OF THE MOLECULAR FORMS OF ACETYLCHOLINESTERASE IN RAT SKELETAL MUSCLE

Acetylcholinesterase (AChE, EC 3.1.1.7) activity of rat gastrocnemius muscle homogenized in 1 M-NaCl and 0.5% Triton X-100 was separated by velocity sedimentation in sucrose gradients into three molecular forms with sedimentation coefficients of about 4S, 10S and 16S. The distribution of homogenate AChE activity among the three peaks was 53, 34 and 13% respectively. The different molecular forms were found to be heterogeneously distributed in subcellular fractions prepared from sucrose homogenates of muscle, as follows: Subfractions of the crude sarcolemmal fraction were prepared by discontinuous sucrose gradient centrifugation. AChE was recovered in the greatest yield and with the highest specific activity in a light density subfraction (0.6/0.8 M-sucrose interface). The AChE activity in this light density subfraction was mainly (81-88%) the 10S form of the enzyme. The velocity sedimentation profiles of the AChE activity in the more dense subfractions were markedly different in that 16S AChE was a major component.     

EFFECTS OF DEXAMETHASONE ON NEUROTRANSMITTER ENZYMES IN CHROMAFFIN TISSUE OF THE NEWBORN RAT

—Dexamethasone administration to newborn rats resulted in an increase in phenylethanolamine N-methyltransferase activity in superior cervical ganglia. The same treatment resulted in a decrease in tyrosine hydroxylase and choline acetyltransferase activities. The decline in choline acetyltransferase activity after dexamethasone treatment was only seen when the drug was given before 5 days of age. When dexamethasone was given to pregnant rats it caused an age-dependent decrease in choline acetyltransferase in the adrenals, superior cervical ganglia and para-aortic chromaffin tissue of the offspring. These results suggest that dexamethasone administration may delay the development of the preganglionic neurons of sympathetic ganglia. This in turn would delay the development of tyrosine hydroxylase but not phenylethanolamine N-methyltransferase.     

大鼠基底动脉和尾动脉平滑肌G蛋白的异质性

用离体血管收缩功能实验法分析了大鼠基底动脉（ＢＡ）和尾动脉（ＣＡ）平滑肌细胞Ｇ蛋白的异质性。结果显示,当ＢＡ和ＣＡ平滑肌被精氨酸血管加压素（ＡＶＰ）激动后,该两种血管对Ｇ蛋白非选择性激活剂ＧＴＰγＳ的收缩反应发生了相反的变化：ＢＡ对ＧＴＰγＳ的收缩增强,并且这种收缩增强不受百日咳毒素（ＰＴ,Ｇｉ和Ｇｏ抑制剂）的影响。而霍乱毒素（ＣＴ,Ｇｓ激活剂）则完全抑制这种收缩,呈单相反应。与ＢＡ相反,ＣＡ对ＧＴＰγＳ的收缩减弱,后者可被ＰＴ预温育反转为收缩增强,而且ＣＴ对这种收缩的抑制作用短暂,呈双相反应。结果提示,ＢＡ和ＣＡ平滑肌细胞介导激动剂收缩反应的Ｇ蚕白存在异质性。     

THE EFFECT OF POTASSIUM ON THE ACID METABOLISM OF SURVIVING SKELETAL AND CARDIAC MUSCLES OF THE FROG

The potassium contraction of skeletal muscle and relaxation of cardiac muscle have been correlated with the carbon dioxide and total acid production of these tissues. 1. The immersion of surviving sartorius muscles of the frog in isotonic potassium chloride solution causes a marked increase in the rate of acid production. 2. It is probable that carbon dioxide is the principal acid involved in the above effect. 3. The immersion of surviving cardiac muscle of the frog in isotonic potassium chloride solution causes a pronounced depression in the rate of survival acid production. 4. Reasons are given for believing that these changes in metabolism may be independent of the stimulation and inhibition of contraction which potassium simultaneously produces in these tissues.     

HISTOCHEMISTRY OF LACTIC DEHYDROGENASE IN HEART AND PECTORALIS MUSCLES OF RAT

Left-ventricular heart muscle and pectoralis major muscle of the rat were studied to determine the intracellular localization of lactic dehydrogenase (LDH) isoenzymes. Fixation of tissue for 2 hr in 2% buffered formaldehyde provided the best preservation of the ultrastructure and enzyme activity. Total LDH activity was found diffusely in the ground substance of the sarcoplasm and in the mitochondria of the heart muscle. In skeletal muscle a strong reaction was noted in the sarcoplasmic reticulum, and moderate activity was seen in the ground substance of the sarcoplasm and in the mitochondria. Differentiation of the isoenzymes of LDH was accomplished by addition of 4 M urea or application of heat. Heart-type isoenzymes were mainly localized in the mitochondria and sarcoplasm, whereas muscle-type isoenzymes were localized mainly in the sarcoplasmic reticulum of the skeletal muscle. It is speculated that the sarcoplasmic reticulum of the skeletal muscle is the site of anaerobic glycolysis and that the sarcoplasm and mitochondria are involved primarily in aerobic metabolism of pyruvate.     

CHANGES IN THE SARCOPLASMIC RETICULUM AND TRANSVERSE TUBULAR SYSTEM OF FAST AND SLOW SKELETAL MUSCLES OF THE MOUSE DURING POSTNATAL DEVELOPMENT

The sarcoplasmic reticulum (SR) and transverse tubular system (TTS) of a fast-twitch muscle (extensor digitorum longus-EDL) and a slow-twitch muscle (soleus-SOL) of the mouse were examined during postnatal development. Muscles of animals newborn to 60 days old were fixed in glutaraldehyde and osmium tetroxide and examined with an electron microscope. At birth the few T tubules were often oriented longitudinally, but at the age of 10 days most of them had a transverse orientation. In the EDL, the estimated volume of the TTS increased from 0.08% at birth to 0.4% in the adult; corresponding values for the SOL were 0.04% at birth and 0.22% in the adult. A similar relative change was observed in surface area of the TTS during development. Calculated on the basis of a 30 µm diameter fiber, the surface area of the TTS in the EDL increased from 0.60 cm² TTS/cm² fiber surface in the newborn to 3.1 cm²/cm² in the adult, compared with 0.15 cm²/cm² at birth to 1.80 cm²/cm² in the adult for the SOL. The SR in the newborn muscles occurred as a loose network of tubules that developed rapidly within the subsequent 20 days, especially at the I band level. The volume of the SR increased in the EDL from 1.1% of fiber volume at birth to 5.5% in the adult. In the SOL the change was from 1.7% to 2.9%. The SOL approached the adult values more rapidly than the EDL, although the EDL had more SR and T tubules. Fibers of both EDL and SOL muscles showed variation in Z line thickness, mitochondrial content, and diameter, but over-all differences between the two muscles in amount of SR and TTS were significant. It is considered that the differing amounts of SR and TTS are closely related to the differing speeds of contraction that have been demonstrated for these two muscles.     

GLYCOGEN AND GLYCOGEN PHOSPHORYLASE IN THE CEREBRAL CORTEX OF MICE UNDER THE INFLUENCE OF METHIONINE SULPHOXIMINE

Abstract— Glucose and glycogen levels in the mouse cerebral cortex in vivo were studied after recovery from methionine sulphoximine seizures. The animals appeared normal 24 h after methionine sulphoximine administration but both glucose and glycogen still persisted at higher levels 72 h after injection (by 64 and 275 per cent, respectively). When seizures were prevented by methionine, the increase in glucose and glycogen at the longer time intervals was significantly smaller than in animals treated with methionine sulphoximine only; glucose reached normal values at 48 or 72 h; the accumulation of glycogen was reduced by about three to five times, but after 72 h the levels were still significantly higher than in control animals (67 or 32 per cent increase, depending on the administered dose of methionine). In contrast to the considerable accumulation of glycogen after administration of methionine sulphoximine in vivo, it had no effect on the level of glycogen in brain cortex slices in vitro. After 3 h incubation in the absence of methionine sulphoximine, glycogen was resynthesized to a level of about 4 μmol/g wet tissue and this value was not significantly affected by the presence of various concentrations of methionine sulphoximine in the incubation medium (10^-5 to 10^-2 M). The total (a+b forms) phosphorylase activity of mouse cerebral cortex in vivo after methionine sulphoximine administration was not affected. The fraction of active phosphorylase was reduced by about 50 per cent at the time of seizures. When seizures were prevented by methionine, the decrease in active phosphorylase was also completely prevented. In the preconvulsive period (1-2 h) and after recovery from the seizures (48 h after methionine sulphoximine administration) active phosphorylase was normal. The possible mechanisms involved in the increased accumulation of glycogen after methionine sulphoximine administration are discussed.     

新生大鼠窦房结组织、培养细胞的glycogen,LDH和SDH定量形态学研究

本实验采用窦房结细胞纯化培养、ＰＡＳ、Ｐｅａｒｓｏｎ和Ｐｒｅｓｔｏｎ反应以及图像分析等方法,研究了新生ＳＤ大鼠窦房结细胞的糖原（ｇｌｙｃｏｇｅｎ）、琥珀酸脱氢酶（ＳＤＨ）,和乳酸脱氢酶（ＬＤＨ）的分布和含量。结果显示,在窦房结组织中的糖原（／）与心房中（／）、心室中（）含量近似;ＳＤＨ含量和活性（＋／）与心房中（＋／）几乎相等,但明显低于心室中（／）;ＬＤＨ的含量和活性（／）比心房中（／＋）的稍高,但明显高于心室中（＋／－）。图像分析结果是：培养窦房结细胞ＳＤＨ含量和活性显著低于心室肌细胞中的ＳＤＨ（Ｐ＜０．０１）,而ＬＤＨ含量和活性显著高于心室肌细胞中的ＬＤＨ（Ｐ＜０．０１）。本文还对ＳＤＨ、ＬＤＨ在窦房结的分布及生理作用进行了讨论。     

CATECHOLAMINES IN FETAL AND NEWBORN RAT BRAIN

The levels of dopamine and norepinephrine were determined in the brains of fetal and newborn rats by means of a sensitive, radiometric-enzymatic assay. Catecholamines were converted to their 3-O-methylated derivatives in the presence of catechol-O-methyl transferase (EC 2.1.1.1) and [³ H-methyl]S-adenosylmethionine; and the [³H]-derivatives were isolated by selective extraction. The assay had a sensitivity for dopamine and norepinephrine of 100 picograms and was linear to at least 30 nanograms of catecholamines. Both amines were present at 15 days of gestation and increased 15-fold in content during the last week of gestation. The regional distribution of these neurotransmitters in the brain of the newborn rat correlated with the distribution of their biosynthetic enzymes. An investigation of the effects of reserpine, pheniprazine, α-methyl-para-tyrosine, diethyldithiocarbamate and l -DOPA on the levels of dopamine and norepinephrine in the brains of the 18-day gestational fetus indicated that the levels of these neurotransmitters are under controls similar to those known to occur in the brain of the adult rat.     

SKELETAL SUSPENSION IN THE TREATMENT OF DECUBITI

In the usual sacral decubitus, pressure may be relieved by skeletal suspension from Kirschner wires placed in the ilian crests. Pressure sores over the scapulae and thoracic spine may be handled by placing Kirschner wires through the clavicles. Both of these methods lend themselves to the preoperative care of a patient being prepared for the plastic closure of a decubitus.