Lectin binding pattern in normal human labial mucosa

Summary The pattern of lectin binding in normal human labial mucosa was examined by light and electron microscopy using eight different lectins (ConA, LCA, WGA, UEA-1, RCA-1, SBA, DBA and PNA) and compared with the patterns in normal human skin and oesophageal mucosa. As seen by light microscopy, ConA, LCA, and WGA stained cell membranes in all layers of the mucosae. RCA-1 stained the plasma membrane of cells in the basal and middle layers, whereas cells in the superficial layers showed little positive staining. UEA-1, SBA, and PNA stained the cells in the middle layers weakly in some cases. No positive staining for DBA was seen. By electron microscopy, reaction product indicating ConA-binding sites was observed in the plasma membrane, cisternae of the endoplasmic reticulum, nuclear envelope and the Golgi apparatus. Binding of LCA, WGA, and RCA-1 was observed in the plasma membrane. These results show that the binding pattern of PNA, SBA, and RCA-1 in labial mucosa is different from that in the normal skin or oesophageal mucosa, although the labial mucosal epithelium, epidermis, and oesophageal epithelium are all stratified squamous epithelia. These differences in the cell-surface sugar residues are likely to be related to the possible functional differences in these tissues.     

A LIFE-HISTORY BASED STUDY OF POPULATION GENETIC STRUCTURE: SEED BANK TO ADULTS IN PLANTAGO LANCEOLATA

We explored the extent to which the soil seed bank differed genetically and spatially in comparison to two actively growing stages in a natural population of Plantago lanceolata. All seed-bank seeds, seedlings, and adults of P. lanceolata within eight subunits in a larger population were mapped, subjected to starch gel electrophoresis, and allozyme analysis in 1988. Gel electrophoresis was also used to estimate the mating system in two years, 1986 and 1988. The spatial distributions of seeds, seedlings, and adults were highly coincident. Allele frequencies of the dormant seeds differed significantly from those of the adults for four of the five polymorphic loci. In addition, a comparison of the genotype frequencies of the three life-history stages indicated that the seed bank had an excess of homozygotes. Homozygosity, relative to Hardy-Weinberg expectations, decreased during the life cycle (for seed bank, seedlings, and adults respectively: F_it = 0.19, 0.09, 0.01; F_is = 0.14, 0.04, -0.12). Spatial genetic differentiation increased sixfold during the life cycle: (for seed bank, seedling and adults: F_s1??? = 0.02, 0.05, 0.12). The apparent selfing rate was 0.01 in 1986 and 0.09 in 1988. These selfing rates are not large enough to account for the elevated homozygosity of the seed bank. Inbreeding depression, overdominance for fitness, and a “temporal Wahlund's effect” are discussed as possible mechanisms that could generate high homozygosity in the seed bank, relative to later life-history stages. In Plantago lanceolata, the influence of the mating system and the “genetic memory” of the seed bank are obscured by the time plants reach the reproductive stage.     

Histochemical demonstration of copper in LEC rat liver

Livers of LEC rats were histochemically stained for copper according to the modified Timm's method, which includes trichloroacetic acid (TCA) treatment. TCA pretreatment was effective in removing zinc and iron, leaving copper as the major metal in the liver. Hepatocytes in 3-month-old rats were stained intensely by the modified Timm's method, both in frozen sections and in paraffin-embedded specimens. The centrilobular hepatocytes were usually stained, but positive cells were also randomly distributed in the hepatic lobes, showing a mosaic pattern. The staining was intensified in 8- compared to 3-month-old LEC rats. In contrast hepatocytes from LEA rats, the normal counterpart of LEC rats, were faintly stained for copper. Proliferating cholangioles found in older LEC rats were shown to lack copper deposition, and hepatocellular carcinoma showed less copper deposits than the hepatocytes surrounding the tumor. The copper staining was augmented in livers of LEC rats subjected to copper-loading, but was less intense in the livers treated with d-penicillamine. The staining intensity under the various experimental conditions showed good correlation with the copper concentration. Lysosomal deposition of copper in hepatocytes was demonstrated by electron microscopic analysis for copper. Thus the modified Timm's method was shown to produce valuable results in demonstrating copper in LEC rat livers, providing important information for an understanding of the mechanism of copper deposition and hepatic disease of the animal.     

Both the SH2 and SH3 domains of human CRK protein are required for neuronal differentiation of PC12 cells.

Human CRK protein is a homolog of the chicken v-crk oncogene product and consists mostly of src homology region 2 (SH2) and SH3, which are shared by many proteins, in particular those involved in signal transduction. SH2 has been shown to bind specifically to phosphotyrosine-containing peptides. We report here that both SH2 and SH3 are required for signaling from CRK protein. Microinjection of the CRK protein induced neurite formation of rat pheochromocytoma cell line PC12. This activity was abolished by mutation of the CRK protein in either SH2 or SH3. The neuronal differentiation induced by the CRK protein was blocked by an excess amount of peptides containing CRK SH3. Moreover, we identified three proteins, of 118, 125, and 136 kDa, which bound specifically to CRK SH3. The CRK-induced neuronal differentiation was also suppressed by monoclonal antibodies against either CRK SH2 or p21ras. These results suggest that both SH2 and SH3 of the CRK protein mediate specific protein-protein binding and that the resulting multimolecular complex generates a signal for neurite differentiation through activation of p21ras.     

Role of receptor complexes in resistance or sensitivity to growth inhibition by TGFβ in intestinal epithelial cell clones

Untransformed rat intestinal epithelial cells (IEC-18) were chemically mutagenized, selected in the presence of TGFβ₁, and cloned by limiting dilution. Two clones (4–5, 4–6) were resistant to growth inhibition by both TGFβ₁ and TGFβ₂. Another clone (4–1) was more sensitive to both TGFβ isoforms (relative to parental IEC-18 cells). IC₅₀ values for TGFβ_{1 and 2} in the 4–1 cells were at least 1/9 those of the parental cells; growth rates were reduced by 49% for TGFβ₁ and by 26% for TGFβ₂ in this clone. This increased sensitivity to TGFβ was explained by the 5- to 10-fold increase, relative to parental cells, in binding of TGFβ₁ and TGFβ₂ to both the type I and II receptors. In contrast, the resistance to growth inhibition by TGFβ in the 4–5 and 4–6 cells could not be explained by a decrease in either TGFβ binding affinities or in total number of receptors expressed, by the presence of serum binding components, or by occupation of receptor binding sites with autocrine TGF-β₁. However, in comparison to TGFβ-sensitive cells (IEC-18, 4–1), the resistant cells displayed a higher ratio of type II relative to type I receptor binding by TGF-β₁. Thus, a critical ratio of binding to receptor subtypes correlated with growth inhibition by TGF-β₁. Resistance to TGF-β₂ in the same clones did not appear to be receptor related. Thus different mechanisms for resistance to TGF-β₁ and TGF-β₂ were observed within a given clone. © 1993 Wiley-Liss, Inc.     

Cellular mechanisms governing synaptic development in Drosophila melanogaster

The neuromuscular connections of Drosophila are ideally suited for studying synaptic function and development. Hypotheses about cell recognition can be tested in a simple array of pre-and postsynaptic elements. Drosophila muscle fibers are multiply innervated by individually identifiable motoneurons. The neurons express several synaptic cotransmitters, including glutamate, proctolin, and octopamine, and are specialized by their synaptic morphology, neurotransmitters, and connectivity. During larval development the initial motoneuron endings grow extensively over the surface of the muscle fibers, and differentiate synaptic boutons of characteristic morphology. While considerable growth occurs postembryonically, the initial wiring of motoneurons to muscle fibers is accomplished during mid-to-late embryogenesis (stages 15–17). Efferent growth cones sample multiple muscle fibers with rapidly moving filopodia. Upon reaching their target muscle fibers, the growth cones rapidly differentiate into synaptic contacts whose morphology prefigures that of the larval junction. Mismatch experiments show that growth cones recognize specific muscle fibers, and can do so when the surrounding musculature is radically altered. However, when denied their normal targets, motoneurons can establish functional synapses on alternate muscle fibers. Blocking synaptic activity with either injected toxins or ion channel mutants does not derange synaptogenesis, but may influence the number of motor ending processes. The molecular mechanisms governing cellular recognition during synaptogenesis remain to be identified. However, several cell surface glycoproteins known to mediate cellular adhesion events in vitro are expressed by the developing synapses. Furthermore, enhancer detector lines have identified genes with expression restricted to small subsets of muscle fibers and /or motoneurons during the period of synaptogenesis. These observations suggest that in Drosophila a mechanism of target chemoaffinity may be involved in the genesis of stereotypic synaptic wiring. © 1993 John Wiley & Sons, Inc.     

The use of a microinjection procedure for large-scale production of the microsporidian Nosema eurytremae in Pieris brassicae

Nosema eurytremae, a microsporidian parasite of Malaysian trematodes, was injected at the rate of 1 × 10⁴ spores/larva into Pieris brassicae. The larvae, which subsequently pupated, were incubated at 25 to 26°C and on harvesting 19 days later yielded an average of 6 × 10⁸ spores/pupa. This was equivalent to 60,000 times the initial dose. Purity of filtered, washed spore suspensions ranged from 80 to 99% with up to 20% host debris.     

Restriction endonuclease analysis of human globin genes in cellular DNA

Using samples of human cellular DNA digested with restriction endonucleases Eco RI, Hind III, Hinc II, Bam HI, Alu I, or Hae III, we were able to localize globin gene fragments separated by agarose gel electrophoresis. The fragments were transferred to nitro-cellulose filters and identified by hybridization to [³²P] cDNA for total adult globin mRNA. The α-globin gene fragments were specifically identified by their presence in normal controls and absence in DNA from homozygous α-thalassemia, a genetic disorder due to deletion of α-globin genes. In addition, the patterns with Hind III indicate a 4.1 kb distance between the centers of the normal duplicated α-globin gene loci.