Isolation and Characterization of Ovine Tyrosine Hydroxylase mRNA

Abstract: Tyrosine hydroxylase (TH) cDNA has been characterized in rodents and primates, but only a few studies have been developed in ungulates, except in cows. Because sheep is a species used for many physiological studies, it was of interest to clone TH cDNA in this species. Ovine TH cDNA was purified from a library of sheep adrenal glands. The entire cDNA was 1,721 bp long. It presented a higher percentage of similarity with bovine TH cDNA (93%) than with rodent cDNAs (75%). The deduced amino acid sequence was 490 amino acids long and had 96% similarity with the bovine amino acid sequence. The entire cDNA and different fragments obtained with endonuclease restriction enzymes were cloned in plasmid pUC 18 and were labeled with ³⁵S-dATP to detect TH mRNA by in situ hybridization. Strong labelings were observed on adrenal medulla and on noradrenergic and dopaminergic neurons in the sheep but also in the cow and pig. This labeling matched completely TH immunohistochemical staining obtained on the same sections with anti-TH antibodies. Ovine TH cDNA is a useful tool to study the variations of TH mRNA levels in sheep catecholaminergic neurons.     

Localization of follicle-stimulating hormone (FSH) immunoreactivity and hormone receptor mRNA in testicular tissue of infertile men

Testicular biopsies from 82 oligo-or azoospermic male patients were subjected to immunostaining using anti-human FSH antibodies. Histological evaluation showed normal spermatogenesis (nspg) in 7 (FSH: 2.7±0.7), mixed atrophy (ma) in 63 (FSH:5.3±0.5), and bilateral or unilateral Sertoli Cell Only syndrome (SCO) in 12 (FSH:21.7±3.5) patients. For the relationship between FSH values and testicular histology, see Bergmann et al. (1994). FSH immunoreactivity was found exclusively in Sertoli cells and in some interstitial cells. Seminiferous epithelium showing normal or impaired spermatogenesis displayed only weak immunoreactivity compared to intense immunoreaction, i.e. large and numerous vesicles in Sertoli cells of SCO tubules in biopsies showing mixed atrophy or SCO. In addition, h-FSH receptor mRNA was demonstrated by in situ hydridization using biotinylated cDNA antisense oligonucleotides. Hybridization signals were found within the seminiferous epithelium exclusively in Sertoli cell cytoplasm associated with normal spermatogenesis and in epithelia showing different signs of impairment, including SCO. It is concluded that: (1) Sertoli cells are the only cells within the seminiferous epithelium expressing FSH receptors; (2) the accumulation of FSH immunoreactivity in Sertoli cells of SCO tubules appears to be a sign of impaired Sertoli cell function.     

Expression of low-molecular-weight neurofilament (NF-L) mRNA during postnatal development of the mouse brain

A regional Northern blot analysis demonstrated that the highest levels of NF-L mRNA in the adult mouse brain are present in brain stem followed by mid-brain, with lower levels found in neocortex, cerebellum, and hippocampus. The study was extended to the cellular level over the time course of postnatal development using in situ hybridization. This developmental analysis revealed that the expression of NF-L mRNA closely follows the differentiation pattern of many large neurons during postnatal neurogenesis. Neurons which differentiate early such as Purkinje, mitral, pyramidal, and large neurons of brain stem and thalamic nuclei, expressed high levels of NF-L mRNA at postnatal day 1. Early expression of NF-L mRNA may be required for the maintenance of the extensive neurofilament protein networks that are detected within the axons of larger neurons. Smaller neurons which differentiate later, such as dentate gyrus granule cells, small pyramidal and granule cells of the neocortex, and granule cells of the cerebellum, exhibit a delayed expression of NF-L mRNA.To whom to address reprint requests.     

Optimization of conditions for in situ hybridization and determination of the relative number of ribosomes in the cells of the mature embryo sac of maize

Summary We have initiated experiments to understand the molecular regulation of embryo sac development in flowering plants by a study of ribosome synthesis and accumulation. Because of the very small size of the embryo sac and the large volume of ovule tissue it is embedded in, in situ hybridization with nucleic acid probes is presently the only practical method for such molecular measurements on individual cells of the embryo sac. Methods of tissue preparation, sectioning and screening of ovules for embryo sac containing sections, in situ hybridization using a ribosomal mRNA probe, and staining were optimized. Relative densities of silver grains for individual cells of the mature maize (W22) embryo sac were determined from in situ hybridizations. The silver grain counts are directly related to the numbers of ribosomes. Volumes of individual cells were determined by confocal microscope image analysis, and this permitted the calculation of the relative total numbers of ribosomes in individual cells of the embryo sac and nucellus. The central cell has a volume 260 times that of a nucellar cell at the micropylar end of the ovule, 15 times that of the egg cell, 30 times that of a synergid, and 130 times the volume of an antipodal cell. The mature maize embryo sac has 20 or more antipodal cells. The central cell has approximately 200 times the number of ribosomes as are present in a nucellar cell, about 7 times as many ribosomes as are in the egg cell, 14 times as many ribosomes as in each synergid, and about 80 times the ribosome content of individual antipodal cells. The data are discussed with respect to the utilization of the ribosomes following fertilization in the early embryo and endosperm.     

Synthesis and accumulation of ribosomes in individual cells of the female gametophyte of maize during its development

Summary The pattern of synthesis of ribosomes during three stages of development of the female gametophyte of maize has been studied by in situ hybridization using a ribosomal RNA probe. Changes in volume of individual cells of the embryo sac during its maturation have been determined by confocal microscopy. These data have permitted us to calculate the relative numbers of ribosomes in the cells of the embryo sac at different stages of their maturation. The egg apparatus and the central cell at all stages of development contain several fold greater numbers of ribosomes than are present in the antipodal cells or cells of the surrounding nucellus. The accumulation of ribosomes during embryo sac maturation appears to proceed at a constant and high rate, with the rate being highest in the developing central cell.     

Demonstration of the cellular expression of genes encoding molt-inhibiting hormone and crustacean hyperglycemic hormone in the eyestalk of the shore crab Carcinus maenas

Based on the amino acid sequence of the molt-inhibiting hormone of Carcinus maenas, two degenerated oligonucleotide primers were synthesized and used in the polymerase chain reaction. By use of complementary DNA of a library constructed from medulla terminalis-X-organ RNA of C. maenas as template, the specific complementary DNA between the primers was amplified, cloned and sequenced. This strategy revealed a DNA sequence for which the deduced amino acid sequence is identical to the recently published C. maenas molt-inhibiting hormone sequence as determined by Edman degradation. Visualization of messenger RNAs encoding molt-inhibiting hormone and crustacean hyperglycemic hormone in different perikarya of the X-organ was obtained using digoxigenin-labelled complementary RNA probes. Combination of immunocytochemical staining using polyclonal antisera against the native C. maenas neuropeptides and in situ hybridization performed on alternating sections confirmed the specificity of the reaction. The results show that there is no co-localization of molt-inhibiting hormone and crustacean hyperglycemic hormone at the messenger RNA and the protein level.     

Up-Regulation of Type 2 Iodothyronine Deiodinase mRNA in Reactive Astrocytes Following Traumatic Brain Injury in the Rat

Abstract: Type 2 5'-deiodinase (5'-D2), which converts thyroxine to the more active thyroid hormone 3,5,3'-triiodothyronine (T3), is believed to be an important source of intracellular T3 in the brain. The activity of this enzyme is increased in hypothyroidism and decreased in hyperthyroidism, and as such, it serves an important role to protect the brain from wide fluctuations in T3 during changes in thyroidal state. Although it has been hypothesized that T3 may facilitate neuronal regeneration after CNS injury, the 5'-D2 response to brain injury is unknown. To assess the 5'-D2 mRNA response to injury, we performed in situ hybridization following traumatic brain injury. In unlesioned animals, 5'-D2 mRNA was undetectable. At 3 days posttrauma, 5'-D2 mRNA was detected in ipsilateral cortex near the contusion. A significant further increase of 5'-D2 mRNA was noted 7 days posttrauma in both hippocampus and cortex. Similar response was also observed on the contralateral side. Colocalization of 5'-D2 mRNA with glial fibrillary acidic protein indicates that reactive astrocytes were the major cellular source for the trauma-induced 5'-D2 expression. These data demonstrate, for the first time, a trauma-induced, astrocytic up-regulation of 5'-D2 mRNA, suggesting a potential role for T3 action in adult brain's response to injury and recovery.     

Cellular localization of a pollen-specific mRNA by in situ hybridization and confocal laser scanning microscopy

Summary The application of confocal laser scanning microscopy together with in situ hybridization experiments in tobacco pollen enabled a detailed localization of a pollen-specific mRNA. The three-dimensional distribution of this specific mRNA over the whole pollen grain was reconstructed by means of optical sections of one specimen.     

Temporal Expression of Mouse Glial Fibrillary Acidic Protein mRNA Studied by a Rapid In Situ Hybridization Procedure

A rapid and sensitive in situ hybridization technique is described for the detection of mRNA sequences in 6-8-micron cryostat sections. The method incorporates the use of alpha-thio-35S-labelled nucleoside triphosphates for the generation of high-specific-activity DNA probes and a high-stringency washing procedure that virtually eliminates background without unduly compromising histological integrity. Whereas signal resolution is less than that observed using 3H probes, 35S-labelled probes are well-suited for experiments where resolution at the cellular level is required. The method has been applied to a study of the developmental regulation of glial fibrillary acidic protein (GFAP) mRNA expression in developing mouse brain. GFAP-specific sequences are first detectable after the second postnatal day, and thereafter rise to a level that is maintained throughout development and into adulthood. The distribution of GFAP-encoding sequences broadly reflects the known distribution of astrocytes, but the levels of mRNA within these cells vary by a surprisingly large amount depending on their location. For example, in adult animals, the astrocytes of the glial limitans contain an abundance of GFAP-specific mRNA that is higher than corresponding levels in astrocytes in the cerebellar white matter, whereas these cells in turn contain considerably more GFAP-specific mRNA than astrocytes in the gray matter of the cerebrum. Unexpectedly, parallel RNA blot transfer experiments show the existence of some GFAP-encoding mRNA size heterogeneity that is restricted to the first postnatal week.     

Quantitation of Rat Dopamine Transporter mRNA: Effects of Cocaine Treatment and Withdrawal

Dopamine transporter mRNA levels in the rat substantia nigra were quantified using a sensitive nuclease protection assay with a highly homologous human dopamine transporter cDNA clone. The same probe was also used to visualize dopamine transporter mRNA in the substantia nigra by in situ hybridization. Repeated cocaine administration (15 mg/kg, twice a day for 6.5 days) resulted in a greater than 40% decrease in nigral dopamine transporter mRNA levels. In contrast, dopamine transporter mRNA levels were unchanged after either acute treatment (4 h before death) or repeated cocaine treatment followed by a 72-h withdrawal period. Thus, blockade of the dopamine transporter by repeated cocaine administration may result in the down-regulation of dopamine transporter gene expression in dopamine neurons.     

High resolution distribution of mRNA within the cytoskeleton

It has been well documented that mRNA is associated with the cytoskeleton, and that this relationship is involved in translation and mRNA sorting. The molecular components involved in the attachment of mRNA to the cytoskeleton are only poorly understood. The objective of this research was to directly visualize the interaction of mRNA with the cytoskeleton, with sufficient resolution to identify the filament systems involved. This work required the development of novel in situ hybridization methods for use with electron microscopy.     

CREB在拟黑多刺蚁不同品级脑部mRNA水平的定位

为探讨CREB在拟黑多刺蚁(Polyrhachis vicina)不同品级脑部mRNA水平的表达,采用地高辛标记法原位杂交技术对拟黑多刺蚁工蚁、雌蚁、雄蚁3个品级脑部CREB mRNA的表达进行了定位研究。结果显示,CREB mRNA在拟黑多刺蚁不同品级脑部均有广泛表达。阳性反应主要分布在蕈形体冠部的Kenyon细胞、视叶和嗅叶等部位。在3个不同品级蚂蚁的脑部中,工蚁的嗅球和蕈形体内有较明显的CREB mRNA阳性反应,雄蚁的视叶具有较强的阳性反应,与工蚁和雄蚁相比,雌蚁脑部各个部位的阳性表达都较弱。推断CREB可能在视觉和嗅觉信息的获取与整合中起着重要作用,且与不同品级蚂蚁的行为相关。