Hepatocyte-specific distribution of catalase and its inhibitory effect on hepatic ischemia/reperfusion injury in mice

To explore the possibility of using catalase for the treatment of reactive oxygen species (ROS)-mediated injuries, the pharmacokinetics of bovine liver catalase (CAT) labeled with ¹¹¹In was investigated in mice. At a dose of 0.1 mg/kg, more than 70% of ¹¹¹In-CAT was recovered in the liver within 10 min after intravenous injection. In addition, ¹¹¹In-CAT was predominantly recovered from the parenchymal cells (PC) in the liver. Increasing the dose retarded the hepatic uptake of ¹¹¹In-CAT, suggesting saturation of the uptake process. This cell-specific uptake could not be inhibited by coadministration of various compounds which are known to be taken up by liver PC, indicating that the uptake mechanism of CAT by PC is very specific to this compound. The preventive effect of CAT on a hepatic ischemia/reperfusion injury was examined in mice by measuring the GOT and GPT levels in plasma. A bolus injection of CAT at 5 min prior to the reperfusion attenuated the increase in the levels of these indicators in a dose-dependent manner. These results suggest that catalase can be used for various hepatic injuries caused by ROS.     

Stem Cell Research: A Novel Boulevard towards Improved Bovine Mastitis Management

The dairy industry is a multi-billion dollar industry catering the nutritional needs of all age groups globally through the supply of milk. Clinical mastitis has a severe impact on udder tissue and is also an animal welfare issue. Moreover, it significantly reduces animal value and milk production. Mammary tissue damage reduces the number and activity of epithelial cells and consequently contributes to decreased milk production. The high incidence, low cure rate of this highly economic and sometimes deadly disease is an alarming for dairy sector as well as policy makers. Bovine mammary epithelial cells (MECs) and their stem cells are very important in milk production and bioengineering. The adult mammary epithelium consists of two main cell types; an inner layer of luminal epithelial cells, which produce the milk during lactation, and an outer layer of myoepithelial cells resting on a basement membrane, which are responsible for pushing the milk through the ductal network to the teat cistern. Inner layer of columner/luminal cells of bovine MECs, is characterized by cytokeratin18, 19 (CK18, CK19) and outer layer such as myoepithelial cells which are characterized by CK14, α-smooth muscle actin (α-SMA) and p63. Much work has been done in mouse and human, on mammary gland stem cell research, particularly in cancer therapy, but stem cell research in bovine is still in its infancy. Such stem/progenitor cell discoveries in human and mouse mammary gland bring some hope for application in bovines. These progenitors may be therapeutically adopted to correct the structural/cytological defects in the bovine udder due to mastitis. In the present review we focused on various kinds of stem/progenitor cells which can have therapeutic utility and their possibilities to use as a potential stem cell therapy in the management of bovine post-mastitis damage in orders to restore milk production. The possibilities of bovine mammary stem cell therapy offers significant potential for regeneration of tissues that can potentially replace/repair diseased and damaged tissue through differentiation into epithelial, myoepithelial and/or cuboidal/columnar cells in the udder with minimal risk of rejection and side effects.     

牛乳铁蛋白肽转基因小鼠的构建

目的:探讨牛乳铁蛋白肽在转基因鼠乳汁中的表达及其抑菌活性。方法:将实验室构建并保存的包含山羊β-酪蛋白基因启动子和牛乳铁蛋白肽基因的乳腺特异表达载体PI-bcp-LfcinB,用Xho I和Nru I双酶切,得到含有全部表达盒的显微注射DNA片段,采用常规显微注射技术获得转基因小鼠。并通过对泌乳期转基因雌鼠乳腺组织的RT-PCR检测,确定了牛乳铁蛋白肽在mRNA水平的表达,同时利用琼脂板扩散法检测了转基因鼠乳汁中表达产物的抑菌活性。结果:获得了牛乳铁蛋白肽转基因小鼠,且转基因小鼠乳汁中能够表达具有抑菌活性的牛乳铁蛋白肽。结论:通过转基因动物乳腺可以获得具有生物活性的牛乳铁蛋白肽,为进一步研究抗菌肽转基因牛、培育抗乳房炎奶牛新品种以及通过建立转基因动物生物反应器进行抗菌肽的大量生产奠定了基础。     

Interaction of piroxicam with bovine serum albumin investigated by spectroscopic,calorimetric and computational molecular methods

Abstract

The binding of drugs to serum proteins is governed by weak non-covalent forces. In this study, the nature and magnitude of the interactions between piroxicam (PRX) and bovine serum albumin (BSA) was assessed using spectroscopic, calorimetric and computational molecular methods. The fluorescence data revealed an atypical behavior during PRX and BSA interaction. The quenching process of tryptophan (Trp) by PRX is a dual one (approximately equal static and dynamic quenched components). The FRET results indicate that a non-radiative transfer of energy occurred. The association constant and the number of binding sites indicate moderate PRX and BSA binding. The competitive binding study indicates that PRX is bound to site I from the hydrophobic pocket of subdomain IIA of BSA. The synchronous spectra showed that the microenvironment around the BSA fluorophores and protein conformation do not change considerably. The Trp lifetimes revealed that PRX mainly quenches the fluorescence of Trp-213 situated in the hydrophobic domain. The CD and DSC investigation show that addition of PRX stabilizes the protein structure. ITC results revealed that BSA-PRX binding involves a combination of electrostatic, hydrophobic and hydrogen interactions. The analysis of the computational data is consistent with the experimental results. This thorough investigation of the PRX-BSA binding may provide support for other studies concerning moderate affinity drugs with serum protein.

Communicated by Ramaswamy H. Sarma     

Combination of oocyte and zygote selection by brilliant cresyl blue (BCB) test enhanced prediction of developmental potential to the blastocyst in cattle

The cumulus oocyte complexes (COCs) were obtained from local abattoir. After aspiration, the COCs were allotted into four treatments to evaluation of brilliant cresyl blue (BCB) test. Control treatment (C): oocytes were cultured directly (without exposure to BCB) after recovery in in vitro production (IVP) process. Oocyte treatment (OBCB): immediately after aspiration, COCs were incubated in modified Dulbecco's phosphate-buffered saline (mDPBS) supplemented with 26 μM of BCB for 90 min and classified into two classes: oocytes with blue cytoplasm coloration (OBCB+: more competent oocytes) and oocytes without blue cytoplasm coloration (OBCB−: low competent oocytes). Directly after classification, the oocytes were maintained undisrupted in the IVP process. Zygote treatment (ZBCB): After oocyte collection, maturation and fertilization, zygotes were stained with BCB for 10 min and categorized into three ways, according to whether they were highly stained (ZBCB++: low competent zygotes), moderately stained (ZBCB+: moderate competent zygotes) and unstained (ZBCB−: more competent zygotes). Directly after classification, the zygotes were maintained undisrupted in the culture process. Oocyte and zygote treatments (OBCB/ZBCB): COCs were stained with BCB after recovery and classified into two classes (OBCB+ and OBCB−). After fertilization, the zygotes produced from OBCB+ and OBCB− oocytes were further stained with BCB for 10 min and categorized six ways (OBCB+/ZBCB++, OBCB+/ZBCB+, OBCB+/ZBCB−, OBCB−/ZBCB++, OBCB−/ZBCB+ and OBCB−/ZBCB−). Directly after classification, the zygotes were maintained undisrupted in the culture process. The selection rate produced from OBCB treatment (OBCB+; 54.3%) was greater (P < 0.05) than ZBCB treatment (ZBCB−; 44.3%). In addition, the selection rate produced from double application (combination of oocyte and zygote selection) of BCB test (OBCB+/ZBCB−: 28.8%) was less (P < 0.01) than single application of BCB test (ZBCB−: 44.3%or OBCB+: 54.3%). The percentage of blastocyst production from OBCB+ oocytes (35.7%) and ZBCB− zygotes (36.6%) were greater (P < 0.05) than that from C oocytes (25.7%), OBCB− oocytes (16.5%), ZBCB++ (13.5%) and ZBCB+ zygotes (21.3%). However, there were no significant differences (P > 0.05) in the percentages of blastocyst production between OBCB+ oocytes (35.7%) and ZBCB− zygotes (36.6%). The proportion of blastocyst production from double application of BCB test (OBCB+/ZBCB−: 48.0%) was greater (P < 0.05) than that from single application of BCB test (OBCB+: 35.7% or ZBCB−: 36.6%). In conclusion, current results confirmed that combination of oocyte and zygote selection by BCB test enhanced the efficiency of selecting for high quality embryos, compared to the single BCB test.     

Distribution of the 75-kD Low-Affinity Nerve Growth Factor Receptor in the Primate Peripheral Nervous System

Disruption of the 75-kD low-affinity nerve growth factor (NGF) receptor (p75) has been shown to result in sensory and sympathetic nervous system deficits (Lee et al., 1992a,b). In order to establish precisely which subsets of neurons are capable of responding to neurotrophins (NTs) through the low-affinity NGF receptor, p75 was localized in the primate autonomic and somatic sensory nervous systems. In the autonomic system, cell bodies of some parasympathetic and enteric neurons expressed detectable levels of p75, whereas all sympathetic neurons expressed the protein. In the sensory system, some, but not all, cell bodies were labeled in cranial and spinal sensory ganglia and in the mesencephalic nucleus. Some peripheral and central projections of the sensory neurons were also labeled. Centrally, most of the labeled processes were found in regions containing primarily small unmyelinated fibers, including lamina II of Rexed and areas of the solitary tract and nucleus. Peripherally, labeled processes were associated with unmyelinated nerves and specialized structures such as taste buds and Meissner corpuscles, but not with myelinated processes. This study indicates that the subset of neurons in the autonomic nervous system likely to be capable of responding to neurotrophins is broader than generally thought, and that p75-ex-pressing neurons tend to be clustered. Moreover, in the sensory nervous system p75 is expressed by most cell bodies, but expression in their projections is restricted both peripherally and centrally to unmyelinated processes and nerve terminals.     

Intersubnuclear Connections within the Rat Trigeminal Brainstem Complex

Prior intracellular recording and labeling experiments have documented local-circuit and projection neurons in the spinal trigeminal (V) nucleus with axons that arborize in more rostral and caudal spinal trigeminal subnuclei and nucleus principalis. Anterograde tracing studies were therefore carried out to assess the origin, extent, distribution, and morphology of such intersubnuclear axons in the rat trigeminal brainstem nuclear complex (TBNC). Phaseolus vulgaris leucoagglutinin (PHA-L) was used as the anterograde marker because of its high sensitivity and the morphological detail provided. Injections restricted to TBNC subnucleus caudalis resulted in dense terminal labeling in each of the more rostral ipsilateral subnuclei. Subnucleus interpolaris projected ipsilaterally and heavily to magnocellular portions of subnucleus caudalis, as well as subnucleus oralis and nucleus principalis. Nucleus principalis, on the other hand, had only a sparse projection to each of the caudal ipsilateral subnuclei. Intersubnuclear axons most frequently traveled in the deep bundles within the TBNC, the V spinal tract, and the reticular formation. They gave rise to a number of circumscribed, highly branched arbors with many boutons of the terminal and en passant types.

Retrograde single- or multiple-labeling experiments assessed the cells giving rise to TBNC intersubnuclear collaterals. Horseradish peroxidase (HRP) and/or fluorescent tracer injections into the thalamus, colliculus, cerebellum, nucleus principalis, and/or subnucleus caudalis revealed large numbers of neurons in subnuclei caudalis, interpolaris, and oralis projecting to the region of nucleus principalis. Cells projecting to more caudal spinal trigeminal regions were most numerous in subnuclei interpolaris and oralis. Some cells in lamina V of subnucleus caudalis and in subnuclei interpolaris and oralis projected to thalamus and/or colliculus, as well as other TBNC subnuclei. Such collateral projections were rare in nucleus principalis and more superficial laminae of subnucleus caudalis. TBNC cells labeled by cerebellar injections were not double-labeled by tracer injections into the thalamus, colliculus, or TBNC.

These findings lend generality to currently available data obtained with intracellular recording and HRP labeling methods, and suggest that most intersubnuclear axons originate in TBNC local-circuit neurons, though some originate in cells that project to midbrain and/or diencephalon.