Lactate dehydrogenase isoenzyme spectrum in spontaneous mouse mammary tumors and lung neoplasms]

The report deals with the LDH isoenzymatic spectrum in the mannary glands, lung, spontaneous tumours of the mammary glands and in metastases into the lung in mature female C3H mice. The difference in the metastases and the tumour LDH isoenzymatic spectrum was in the higher activity of the anode fraction of metastases. The presence of lung metastases was accompanied by a cathode drift of the LDH isoenzymatic spectrum to this organ tissue.     

Lactate dehydrogenase activity and its isoenzyme spectrum in the human pancreas in the prenatal period

Lactate dehydrogenase (LDH) activity and the character of its isoenzyme distribution in pancreas of the human embryos and feti of the 5th-13th-week development were studied. It is shown that LDH activity was rather high already in early periods of the embryonic development, peaks of the enzymic activity were observed after 7-8 and 12-13 weeks. The isoenzymic LDH spectrum was characterized by the presence of four isoenzymes: LDH1, LDH2, LDH3, LDH5. Isoenzyme LDH4 was absent in the human pancreas in all the studied periods of embryonic development. The data obtained evidence for intensity of the glycolysis processes at LDH reaction level in the prenatal ontogenesis period and they reflect most probably the processes of development and differentiation ox cellular populations in the given organ.     

Lactate dehydrogenase isoenzyme study of Trichinella larvae of different ages

LDH isoenzymes of Trichinella larvae isolated from experimentally infected guinea pigs were investigated between days 30 and 400 inclusive after infection. It was found that on the 30 th day after infection the larvae have two isoenzymes while from the 40th to the 400 th day--three isoenzymes. The first of the latter is of fast responce and is located in the anod area near the indicator while the two others are of slow response and are located between the isoenzymes LDH-3 and LDH-5 of the muscular tissue of guinea pigs. This indicates that energetic metabolism of Trichinella larvae proceeds in muscular tissues by aerobic and anaerobic way. Since electrophoretic specificity of LDH-isoenzymes of Trichinella larvae differ from that of LDH-isoenzymes of muscular tissue the former are apparently characteristic of Trichinella larvae.     

Differentiation of slow and fast muscles in chickens

1. The development of the characteristic histochemical appearance of the slow anterior latissimus dorsi (ALD) and fast posterior latissimus dorsi (PLD) was studied in chickens during embryonic development as well as during regeneration of minced muscle. 2. During embryonic development the activity of the oxidative enzyme succinic dehydrogenase (SDH) is higher in the slow ALD muscle already at 16 days of incubation. At this time the fast PLD has a higher activity of the glycolytic enzyme, phosphorylase. Although the histochemical appearance of the two types of muscle is already different at 16 days, their contractile speeds are still similar. No difference in myosin ATP-ase was found in the two muscles in young embryos but in 20-day old embryos the two muscles became distinctly different when stained for this enzyme. 3. When PLD muscles in hatched chickens redeveloped during regeneration in place of ALD the histochemical characteristics of the regenerated muscle resembled ALD, and when ALD regenerated in place of PLD it resembled PLD. 4. It is concluded that the histochemical characteristics of slow and fast muscles become determined during early development, even before any difference in contractile properties can be detected and that they are determined by the nerve.     

Lactate dehydrogenase isoenzyme transitions during skeletal differentiation in the mouse embryo

(1) In the mouse embryo there are changes in lactate dehydrogenase activity and isoenzyme pattern during the differentiation of cartilage and bone. (2) The specific activity of lactate dehydrogenase rises during chondrogenesis and falls during osteogenesis. (3) Identical isoenzyme transitions occur in parallel in both tissues: undifferentiated limb bud mesenchyme contains isoenzymes 1-5 whereas in both the cartilaginous and bony portions of a long bone developing from the mesenchyme, there is a progressive shift towards a predominance of the 'anaerobic' isoenzymes 4 and 5.     

The fine structure of fast and slow crustacean muscles

Known phasic and tonic muscle fibers of the crab Cancer magister were studied by electron microscopy. Phasic fibers have sarcomeres about 4.5 µ long, small polygonal myofibrils, and a well-developed sarcoplasmic reticulum. The thick myofilaments, disposed in hexagonal array, are each surrounded by six thin filaments. The tonic fibers have a sarcomere length of about 12 µ, larger myofibrils, a poorly developed sarcoplasmic reticulum, and a disorderly array of myofilaments. Each thick myofilament is surrounded by 10–12 thin filaments. The same morphological type of slow muscle has been found in the crustaceans, Macrocyclops albidus, Cypridopsis vidua, and Balanus cariosus, in each case in an anatomical location consistent with tonic action. A search of the literature indicates that this type of muscle is found in all classes of arthropods and is confined to visceral and postural muscles or specializations of these.     

Lactate dehydrogenase isoenzymatic spectrum in preimplantation murine embryos

The spectrum of LDH isozymes was studied using different concentration of X-100 triton for enzyme extraction from the eggs and embryos, different systems of electrophoresis and different methods of staining electrophoregrams. Similar results were obtained in all cases. The mouse eggs and embryos were shown to contain only LDH-1; the treatment of oviducal fluid with X-100 triton strengthened the activity of LDH-4 and LDH-5. The detection of the activity of LDH-5 and hybrid isozymes appears to be related to the presence of oviducal fluid in the sample under study.     

Lactate dehydrogenase isoenzyme patterns as a method of pregnancy detection in cattle

The objective of this study was to evaluate serum lactate dehydrogenase isoenzyme patterns in open and pregnant Holstein and Hereford cows as a method of detecting pregnancy. Serum samples were collected from 26 Holstein and 13 Hereford cows and lactate dehydrogenase isoenzyme patterns were examined by electrophoresis and quantitated by scanning densitometry. Lactate dehydrogenase isoenzyme(4) and LDH(5) were found in higher concentration (P 相似文献   

Motor and sensory reinnervation of fast and slow mammalian muscles

Summary 1. The formation of endplates outside the original endplate region of a muscle fibre was studied in slow and fast rat muscles. It was found that such new endplates are readily formed on the soleus muscle, whereas hardly at all in the fast extensor digitorum longus. Most new endplates appear to be morphologically normal within 2 months after nerve implantation.2. The time course of recovery of slow and fast cat muscles was followed after crushing the sciatic nerve. It was found that the slow soleus muscle recovers more rapidly than the fast flexor hallucis longus muscle.3. The endplates of reinnervated cat muscles are more complicated than those of the control muscles, but have nevertheless fewer nerve terminals per endplate. Reinnervated muscles are more sensitive to curare and it is suggested that this is due to a decrease in transmitter release, for it was found that less acetylcholine is released from reinnervated rat hemidiaphragms than from control ones.4. Motor and sensory reinnervation of spindles and tendon organs was studied. At the time when motor reinnervation is almost completed the sensory endings from spindles and tendon organs are highly abnormal. Thus sensory reinnervation proceeds much more slowly than motor.     

Power outputs of slow and fast skeletal muscles of mice

The purpose of this study was to contrast the frequency-power relationship of slow soleus and fast extensor digitorum longus (EDL) muscles to their frequency-force relationships and to investigate factors involved in the development of maximum power during a single contraction. Stimulation frequency-force and stimulation frequency-power relationships were determined for soleus and EDL muscles of the mouse for single contractions in situ at 35 degrees C. Power was measured during isovelocity shortening contractions with displacement through 10% of fiber length at the optimum velocity. Optimum velocity was defined as the shortening velocity for the generation of maximum power for a given stimulation frequency. Both force (N/cm2) and power (watts/kg) increased with stimulation frequency until a plateau was reached. For the frequency-force relationship, the curve for soleus muscles was merely shifted to the left of that for EDL muscles. In contrast, the power developed by EDL muscles was greater than that of soleus muscles (P less than 0.05) at each stimulation frequency. The higher power was a direct consequence of higher optimum velocities for EDL muscles compared with soleus muscles.