Perspectives on weak interactions in complex materials at different length scales

Nanocomposite materials consist of nanometer-sized quantum objects such as atoms, molecules, voids or nanoparticles embedded in a host material. These quantum objects can be exploited as a super-structure, which can be designed to create material properties targeted for specific applications. For electromagnetism, such targeted properties include field enhancements around the bandgap of a semiconductor used for solar cells, directional decay in topological insulators, high kinetic inductance in superconducting circuits, and many more. Despite very different application areas, all of these properties are united by the common aim of exploiting collective interaction effects between quantum objects. The literature on the topic spreads over very many different disciplines and scientific communities. In this review, we present a cross-disciplinary overview of different approaches for the creation, analysis and theoretical description of nanocomposites with applications related to electromagnetic properties.

Premelting of ice adsorbed on a rock surface

Considering ice-premelting on a quartz rock surface (i.e. silica) we calculate the Lifshitz excess pressures in a four layer system with rock–ice–water–air.

Trapping of Gas Bubbles in Water at a Finite Distance below a Water-Solid Interface

Gas bubbles in a water-filled cavity move upward because of buoyancy. Near the roof, additional forces come into play, such as Lifshitz, double layer, and hydrodynamic forces. Below uncharged metallic surfaces, repulsive Lifshitz forces combined with buoyancy forces provide a way to trap micrometer-sized bubbles. We demonstrate how bubbles of this size can be stably trapped at experimentally accessible distances, the distances being tunable with the surface material. By contrast, large bubbles (≥100 μm) are usually pushed toward the roof by buoyancy forces and adhere to the surface. Gas bubbles with radii ranging from 1 to 10 μm can be trapped at equilibrium distances from 190 to 35 nm. As a model for rock, sand grains, and biosurfaces, we consider dielectric materials such as silica and polystyrene, whereas aluminium, gold, and silver are the examples of metal surfaces. Finally, we demonstrate that the presence of surface charges further strengthens the trapping by inducing ion adsorption forces.

Mitochondrial Structure: Two Types of Subunits on Negatively Stained Mitochondrial Membranes

Projecting subunits were seen on the cristae of all 11 types of mitochondria examined by electron microscopy. These consisted of a stem, 30 to 35 A wide and 45 to 50 A long, and a round head 75 to 80 A in diameter. The outer membranes of rat liver mitochondria showed regular arrays of hollow cylindrical subunits 60 A by 60 A.

Why direct or reversed Hofmeister series? Interplay of hydration, non-electrostatic potentials, and ion size

A modified Poisson-Boltzmann analysis is made of the double layer interaction between two silica surfaces and two alumina surfaces in chloride electrolyte. The analysis incorporates nonelectrostatic ion-surface dispersion interactions based on ab initio ionic excess polarizabilities with finite ion sizes. A hydration model for the tightly held hydration shell of kosmotropic ions is introduced. A direct Hofmeister series (K > Na > Li) is found at the silica surface while the reversed series (Li > Na > K) is found at alumina, bringing theory in line with experiment for the first time. Calculations with unhydrated ions also suggest that surface-induced dehydration may be occurring at the alumina surface.

Status of electronic reporting of notifiable conditions in the United States and Europe

OBJECTIVE

To improve the computer connectivity and network strategies to connect U.S. county health departments (CHDs), state health departments (SHDs), and the Centers for Disease Control (CDC) for reporting notifiable conditions.

METHODS

HSPNET-L mailing list discussions and individual Internet communications were used to compare selected features of notifiable conditions networking in the United States, France, and the United Kingdom.

RESULTS

In the US, the CHD is the agency that first responds to an infectious disease outbreak on receiving notifications from physicians. Prompt recognition by the SHD that a widespread outbreak has occurred depends on the way in which county data are received, the "age" of the data, and the time taken to analyze them. Similarly, the recognition of the national scale of the outbreak depends on the promptness with which SHDs report to the CDC and the age of the data. An analysis of the French Communicable Disease Network suggests that an expansion of electronic links between US CHDs and SHDs will improve timeliness. Electronic data exchange allows CHDs to set up a local database and reduces transcription errors, mailing costs, and telephone costs.

CONCLUSION

A fuller use of e-mail or other electronic communication by US CHDs will allow them to use a local database as a tool for managing local disease outbreaks more effectively and independently. Federal and state agency access to the CHD databases will enable early reporting of epidemic outbreaks. Periodic posting of public health information on Internet servers is recommended for immediate access to the public health data by Internet users worldwide.

Binding of some metastatic tumor cell lines to fibrous elastin and elastin peptides

Recent suggestions that tumor-cell targeting of elastin-rich tissues (e.g., lung) correlates with the presence of surface elastin receptors have been investigated. Receptors for insoluble (fibrous) elastin and for soluble elastin peptides have been implemented in these correlations. A rapid assay for binding of insoluble elastin has been devised. Two of the cell lines tested (M27 and MAT-LyLu), which metastasize to the lung, strongly bound fibrous elastin whereas a third (B16-F10) did not. None of 4 metastatic cell lines that do not target the lung (A549, 3LL, TA3, TA3-iso2) bound fibrous elastin. The ability of cell lines to interact with soluble elastin was tested by cell attachment to high-molecular-weight soluble elastin peptides adsorbed on a plastic surface. Three of 7 tested cell lines, B16-F10, M27 and TA3, attached to a soluble elastin coating. In contrast to the rapid binding of insoluble elastin particles, the cell interaction with immobilized soluble elastin peptides was delayed, suggesting that induction of receptors for soluble elastin and/or modification of the elastin coat was occurring. Thus, all 3 tested cell lines where metastases target the lung, namely, MAT-LyLu, B16-F10 and M-27, show soluble- or insoluble-elastin interactions, whereas, of 4 cell lines not targeting lungs, only one, TA3, reacts with soluble elastin.

Tumor cell interactions with stromal elastin and type I collagen: the consequences of specific adhesion and proteolysis

Elastin and collagen are abundant fibrous molecules in the stroma. Tumor cells invading the stroma are in contact with fibers of both types much of the time. Both may serve as footholds for the traction required for movement. Elastin has an additional role. Elastin peptides are known to stimulate receptor signaling and chemotaxis, which could explain the morphometric changes (membrane and organelle polarization and cell volume shrinkage) that we have reported for certain tumor cell lines invading elastic lamina. Elastin and its peptides emerge as possible invasion enhancers for some tumor cells. In ongoing work we are screening human tumors that contact elastin (e.g., breast carcinomas) to see if the presence of elastin receptors correlates with early dissemination of metastatic tumor cells.

Organelle rearrangement and cell volume changes during squeezing invasion of peritoneal elastic lamina by targeted murine breast carcinoma cells

Murine breast cancer cell lines were developed to selectively invade the peritoneum while they proliferated in ascites form in the abdominal cavity. In a dominant form of invasion, tumor cells showed special affinity for elastin fibers and squeezed through narrow gaps in the elastic fiber meshwork of the stroma. Even in fixed tissue, such cells could be recognized as being in the process of invasive migration because of their dumbbell shape. This appearance was similar to that of diapedetic blood cells traversing bone marrow sinus endothelium. Three-dimensional STERECON graphics reconstruction from serial thick sections of 44 such cells was carried out. The reconstructions showed that, in mid-penetration, the cells spread extensively over the exterior surface of the elastic fiber meshwork. The cell surface contact of these forward projections was mainly with the elastic fiber outer coat of microfibrils, but small areas of the cell surface also fused directly to inner-core elastin. The morphological rearrangement of the cytoskeleton was minimal in both types of attachment areas. The location of these forward facing attachments is consistent with mechanisms for pulling the invasive cell through the gap. Lamellopodia formation and clustering of cytoplasmic organelles occurred more commonly at the forward-facing part of the cell. Morphometry of the reconstructions showed that a contraction of the whole cell occurred during the squeezing/migration process suggestive of an additional pushing process. However, our invasive cell lines showed marked differences in the degree of cell shrinkage. The process of adhesion and squeezing of tumor cells through elastin meshworks in vivo is clearly a complex phenomenon. Changes in cell surface activity appear to play a significant role in establishing the necessary 'foothold' component of invasion and, possibly, in the generation of tractive force as well.

The relative merits of direct morphometry of reconstructions of whole cells, and statistical morphometry by stereology of random sections of cells

Stereology, or the derivation of quantitative, three-dimensional (3-D) data about cells by statistical analysis of the structures of random sections, is widely used in cytology and pathology. However, there are situations where this approach is inadequate, and only an analysis of a homogeneous population of whole cells will give the required results. This involved 3-D reconstruction from physical or optical sections, or tomography or photogrammetry of whole-cell mounts. Use of stereo views of individual sections or projections adds considerably to the information available for both contouring and reconstruction. Recent image-processing advances in clinical radiography have shown, for the first time, that rapid, high-resolution digitization and contrast enhancement enable nearly all structural details to be routinely extracted from the micrographs and adequately portrayed. Three-D whole-cell reconstructions provide the digital data for many kinds of morphometric measurements on both whole cells and their individual organelles and membranes. Rapid fixation or freezing allows improved quantitative structure/function correlations of organelles with disturbances in cell metabolism or gene expression.

Targeting of peritoneum by the small numbers of isogeneic and allogeneic ascites carcinoma cells that infiltrate or attach to peritoneum during ascites growth

In the course of development of an in vivo invasion model, sublines of a series of allogenic and isogeneic carcinoma cell lines have been selected that show enhanced invasion of the peritoneum. It was found that, during the proliferation of tumor cell lines in ascitic form in the abdominal cavity, small numbers of cells infiltrated or firmly adhered to the peritoneum in at least 8/12 of the tumor-host combinations tried. After thorough washing of the peritoneum it was disaggregated by an enzyme mixture, and the resulting mixture of normal and tumor cells was inoculated intraperitoneally. Peritoneal isolations were made serially for 3 to 12 times. In 6 of 8 cases where the isolation produced a stable ascites, the cells showed enhanced peritoneal invasion compared with the parent cell line. The invasion of some of the cell lines was tested in another invasion model consisting of cultured mouse buccal mucosa (9/10 cell lines invaded the explant). In 3/3 cell lines showing enhanced peritoneum invasion in vivo, there was no enhanced invasion of the buccal mucosa. The enhanced peritoneum invasion appears to be tissue specific rather than a general increase in invasion potential. Pairs of high- and low-invasive cell lines were obtained that should be useful for screening for invasion modulating agents using the mouse ascites/peritoneum in vivo model. It is suggested that the method might be generalized to produce various tumor cell lines that target for the normal tissues that are adjacent to proliferating solid or circulating tumors.

Telecommunication discussion groups for health services and medical research

International university and research institute telecommunication links provide free or low-cost access to several computer networks (commercial and non-commercial). Previously used by science researchers, such networks are now used in clinical and social medicine. University affiliation, a personal computer, and a modern and software are needed. A host-computer, at a local computing centre, operates server software that automatically distributes information to subscribers. The server stores all messages in a monthly logbook that can be edited to produce an electronic magazine. The magazine can also be accessed by non-subscribers. The software gives convenient, fast, single-key processing of messages and files and also allows on-line conferences. Discussion groups on several medical specialties and data bases for AIDS and other communicable diseases are already operating.

High-voltage electron microscopy and three-dimensional graphic study of R and T cells in head and neck carcinomas

Individual head and neck carcinomas show extreme regional cellular differentiation. Some cells are rich in keratin filaments (T cells) and some have little keratin and a high density of free ribosomes (R or RT cells). We attempted to isolate these two cell types in order to test their relative invasiveness in an in vitro model. The high frequency of mitosis of hyperkeratinized cells showed that there was no constraint on the motility of cell division. High-voltage electron microscopy of serial thick sections and three-dimensional graphic reconstruction demonstrated that keratin cytoskeleton filaments were cross-linked into short, thick bundles. However, the keratin cytoskeleton was absent from some portions of the cytoplasm. In normal differentiated keratinized cells, a more uniform spanning of the whole cell by thin keratin intermediate-filament bundles was evident. The cytoplasm may be more mobile in the keratinized tumor cells. Even heavily keratinized T cells, like the less keratinized cell types, may have invasive motility.

Shape, size, and distribution of cell structures by 3-D graphics reconstruction and stereology. I. The regulatory volume decrease of astroglial cells

This report discusses fundamental limitations in attempting to derive cell size, shape, or distribution from the two-dimensional images provided by conventional electron microscopy. Morphometric or stereologic measurement of random thin sections is a convenient way to obtain some information of this type. However, it cannot provide complete, objective information about real size, shape, or connectivity of cells containing irregular or unevenly distributed structures or nonuniform populations of cells. Anisotropic structures require analysis of a complete set of serial sections. The analysis may utilize either stereo, mono, or tilted optical slices, and subsequent integration of this information into a single 3-D computer data set. In this study, we analyze stereo pairs of high-voltage electron micrographs of serial thick sections (0.5 micron) and critical-point-dried whole-cell mounts of rat brain astroglial cell cultures. The Z-axis resolution is increased by digitizing contours at discrete levels within each stereo view. This is accomplished with a new type of stereoscopic contouring device. We calculated area and volume changes accompanying hypo-osmolar swelling and spontaneous reversal of the swelling. (Regulatory Volume Decrease-RVD). An understanding of the mechanism of swelling of astroglial cells is important for improving the treatment of brain injury. The total cell-volume results are comparable with results previously obtained using nonmetabolized, radioactively tagged compounds that diffuse into various cell compartments. Our serial-section and whole-cell data also provide new information about the relative swelling of nucleus, cytoplasm, and individual organelles such as mitochondria. The basic biological problem being approached is whether homeostasis of cell function is accompanied by surface area and volume regulation of enzyme-rich membranes and organelles. Conversely, it is proposed to explore the possibility that abnormal organelle areas and volumes are indicators of perturbations of cell division, metabolism, or gene expression.

Electron microscopy, electron diffraction, and element analysis of wet biological specimens

Temperature controlled differentially pumped environmental chambers now allow more routine examination of wet specimens in the electron microscope. A sensitive test of their efficiency is the ability to provide high resolution electron diffraction patterns from wet, unfixed protein microcrystals. Fortunately, wet specimens can be prepared with only a few tens of nanometers thickness of remaining water, so extraneous electron scattering by liquid water can be kept to a minimum. It still remains to be determined whether microprobe analysis (X-ray or electron energy-loss spectroscopy) using wet specimens gives better element localization in cells than the current freezing methods. More extensive comparisons are also required of the ultrastructural preservation and visibility of macromolecules immersed in a thin layer of water vs immersion in a thin layer of amorphous ice. However, the recent introduction of commercial forms of the necessary equipment now make these comparisons more feasible.

Resolution as a function of accelerating voltage in electron microscopy of semithick biological specimens

In the past, biological sections ranging in thickness from 0.10- to 0.50-micron have usually been examined with high-voltage (greater than 500 kV) electron microscopes (HVEM). Now investigators are increasingly using intermediate voltage (200-500 kV) electron microscopes (IVEM), which are more readily available and demand less maintenance. In a study of "typical" plastic-embedded, stained sections of mouse liver ranging from 0.10 to 1.0 micron thick, we determined the resolution obtainable at 100, 200, and 1000 kV. At all three accelerating voltages the resolution (2.7 nm) for 0.10-micron sections was limited only by the sections stain granularity. For 0.25-micron thickness the resolutions were 5.8, 3.1, and 3.1 nm at 100, 200, and 1000 kV, respectively. The maximum usable thickness at 200 kV with resolution sufficient to resolve membranes clearly was between 0.75 and 1.0 micron, depending on the magnification. Resolution at 100 kV was adequate for screening sections up to 1.0-micron thick for preparation defects prior to examination with an IVEM or HVEM.

Establishment and characterization of two new squamous cell carcinoma cell lines derived from tumors of the head and neck

Two human cell lines were established from untreated squamous cell carcinomas of the head and neck. Line 183 was derived from a head and neck squamous cell carcinoma of the tonsil and 1483 from a head and neck squamous cell carcinoma of the retromolar trigone. Both lines grow in a cobblestone pattern demonstrating their epithelial heritage. Immunofluorescence studies and one-dimensional polyacrylamide gel electrophoresis indicated that both lines contain cytokeratins. Line 1483 is more aggressive in nude mice, has a higher efficiency for anchorage-independent growth, expresses p21ras (product of the ras oncogene) at a higher level, and is more aneuploid than 183. 1483 also grows as a multicellular tumor spheroid. Line 1483, which was established from the primary tumor of a patient with nodal metastasis, thus displays more progressed characteristics than line 183, which was established from a patient with no clinically positive nodes.

Ultrastructural characterization of isolated human head and neck squamous carcinoma cells. Assessment of isopycnic centrifugation

In an experiment to evaluate the merit of isopycnic centrifugation as a method of separating cell types in human head and neck squamous cell carcinomas, cells have been isolated from four specimens of these tumors and subjected to isopycnic centrifugation in continuous Percoll gradients. Cell types were identified by electron microscopy. The R- (ribosome-rich), T- (tonofilament-rich), and RT- (intermediate) cell types yielded broad bands overlapping extensively with one another, and partially with the bands of leukocytes. The pattern differed for each tumor studied, so that universal density levels separating given cell types could not be found. Isopycnic centrifugation proves less suitable in analyzing cells dispersed from solid tumors than for cells in suspended culture, blood, effusions, etc., probably because of heterogeneous growth conditions of cells in solid tumors.

Detection and characterization of circulating rat mammary tumor cells in buffy coat and correlation with metastasis

A new method for detecting bloodborne TMT-081 rat mammary tumor cells in buffy coat has revealed dose-dependent variations in the latency period after inoculation of tumor cells, the concentration of circulating tumor cells, and the incidence of metastases. Cells isolated from buffy coat of right ventricular blood were more tumorigenic than tryptically dispersed cells from solid tumors. With the new method circulating tumor cells can be detected at concentrations as low as 3 cells/microliter of buffy coat, or approximately 60 cells/ml of whole blood. The morphologic and ultrastructural features of the primary tumor were generally retained in both the circulating and tryptically dispersed cells, as shown by light and electron microscopy. A sparse distribution of intermediate filaments was revealed by high-voltage electron microscopy, although the filaments were not evident in conventional transmission electron micrographs. They were identified as keratin by immunofluorescence studies.

The usefulness of the high voltage electron microscope in biomedical ultrastructure analysis

We now have the tools to quantitate and correctly interpret the size, shape, and distribution of organelles in cells. It appears likely that the results will require some changes in some basic assumptions of ultrastructural cytology. This should also result in some new biochemical hypotheses about control of cell metabolism.

Patterns of blood-vessel invasion by mammary tumor cells

Rat mammary tumor TMT-081 was employed as a model for blood vessel invasion because its mode of metastasis resembles that of human tumors. The invasive mechanism was studied with two methods of serial transplantation: transfer of enzymatically dispersed solid tumors, and transfer of buffy coat containing circulating tumor cells. The latter method produced greater invasion of blood vessels, including larger veins and occasionally arteries, perhaps by obviating damage to tumor cells during enzyme treatment. The course of migration was traced by three-dimensional examination in the high voltage electron microscope, as well as the light microscope. Two broad patterns were found for the course of invasion of small and large vessels respectively.

Immediate ascites conversion of mammary tumors induced in NYLR/Nya mice by 7,12-dimethylbenz-[a] anthracene and urethane feeding and by forced breeding

Intragastric feeding of dimethylbenz-[a]anthracene in corn oil together with urethane in the drinking water and forced breeding were successful in rapidly inducing (2-4 months) mammary tumors (adenoacanthomas) in inbred NYLR/Nya mice, which have a low incidence of spontaneous breast tumors and of other tumors. The tumors could be quickly and permanently transformed to an ascites form by intraperitoneal inoculation of enzyme-dissociated cells and subsequent serial passage of free cells. Only 10 (3 in some cases) serial passages were required, thus conveniently providing multiple isogeneic carcinoma cell lines in this strain of mice. Some tumor cell lines proliferated strongly in the abdominal cavity even on the first passage.

In vitro modulation of differentiation by calcium in organ cultures of human and murine epithelial tissue

The differentiation of epithelial tissue in organ cultures of murine buccal mucosa, various human oral mucosa, and human newborn foreskin was found to be dependent on the calcium concentration of the culture media. In low calcium medium (less than or equal to 0.07 mM) epithelial differentiation was inhibited. The original stratifying layers separate and can be removed, producing a destratified explant. Histologically such an explant consists of a dorsal epithelial layer of basal keratinocytes resting on an intact basal lamina with subjacent stroma. At 0.01 mM calcium, the epithelial layer was one to two cells thick whereas at 0.07 mM it could be three or more layers in thickness with the most superficial cells being spread over the underlying cells. In addition to differentiation, keratinocyte migration over the sides of the explant (epiboly) and epithelial proliferation as determined by [3H]thymidine autoradiography were reduced by culture in low calcium medium. Redifferentiation occurs upon return to normal calcium levels (1.8 mM); addition of hydrocortisone to low calcium media was found to facilitate this redifferentiation.

Shape changes and polarization of cells migrating through tissue. A high-voltage electron microscope and computer graphics study of serial thick sections

Structural changes of carcinoma cells and fibroblasts migrating through small spaces in the elastic-collagen reticulum of mouse peritoneum have been studied by high-voltage electron microscopy of serial thick sections and by computer graphics reconstruction of cell profiles. The change of shape profile of an individual cell, between serial sections is large and the distribution of organelles is very non-uniform and changes markedly between sections. Conclusions about adhesion, intercell contact, cell shape and polarization of cytoplasmic organelles could only be reached by assessing a complete set of serial sections. Our preliminary results suggest that interesting structural changes occur in both carcinoma cells and fibroblasts when migrating through this tissue.

Organ-cultured epithelial tissue as an in vitro model for invasion: quantitation and high-voltage electron microscopy of tumor cell attachment

An invasion model designed specifically for studying mechanisms of invasion of squamous-cell carcinomas was developed with murine buccal mucosa as the host tissue. The mucosal explants were destratified by growth in low-calcium medium (less than 0.07 mM), which results in a dorsal surface composed of one or two layers of basal epithelial cells. The explant has a three-dimensional histoarchitecture similar to in vivo mucosa. A spontaneously transformed epithelial cell line (Pam 27; Yuspa , S. H., Hawley -Nelson, P., Koehler , B., and Stanley, J. R. Cancer Res., 40: 4694-4703, 1980) was used to seed explants. Attachment and subsequent growth and invasion were monitored. The morphology of attachment was examined by conventional and high-voltage electron microscopy. In addition, attachment was quantitated by using [125I]iododeoxyuridine-labeled tumor cells. Attachment was shown to be an active process which involves an interdigitation of tumor-host cell processes. Junctional complexes were also observed between tumor and host epithelial cells. By 24 hr, tumor cells were spread on the basal cells and were in the process of replacing host cells. Long-term growth of explants showed that tumor cells can repopulate the epithelial surface and invade the stromal region.

"Dark cells" in normal, hyperplastic, and promoter-treated mouse epidermis studied by conventional and high-voltage electron microscopy

Dark cells (DC) could be reproducibly demonstrated by differential toluidine-blue staining and electron microscopy (EM) of NYLR/Nya 16- to 19-day embryo and new born skin and phorbol ester-treated or untreated young adult skin. High-voltage electron microscopy on the same or adjacent sections showed that toluidine-blue staining picks out some but not all the DC seen by EM. The ultrastructure of DC was similar in all the above situations, except that phorbol ester-induced DC showed a less contracted nucleus. No support was obtained for DC as stem cells either for basal-cell hyperplasia or for development of hair follicle or gland outgrowths. Most of the severely contracted DC (Types 3 and 4) were assumed to have undergone an apoptotic type of cell death. Two phenomena that may have caused the contraction and apoptosis were observed. Formation of a "contraction vacuole" adjacent to the DC probably led to a loss of intercellular communication. An apparent necrosis of dermal capillaries in areas of abundant follicle downgrowth probably produced local anoxia. Further characterization of DC requires a search for cytochemical or immunologic markers, analysis of intracellular calcium and other elements, and the cloning of subpopulations of basal cells that can be selectively induced to form DC.

Inflammation with restricted lysosomal proteolysis during early ascites carcinoma invasion of mouse parietal peritoneum. A medium and high-voltage electron microscopic and cytochemical study

A carcinoma invasion system (Krebs-2 and Ehrlich tetraploid ascites tumors invading mouse peritoneum) was studied by high-voltage electron microscope (HVEM) stereoscopy, conventional (medium voltage) electron microscopy (MVEM), and cytochemistry. Tumor cells entered areas of peritoneum (mainly parietal) only where mesothelial cells were damaged and where there was inflammation of the underlying stroma. The initial invasion was different from that of most other invading carcinomas in that there was minimal breakdown of basal lamina and collagen. Neither tumor cells, inflammatory leukocytes nor peritoneal fibroblasts showed significant secondary lysosome production or release of intracellular or extracellular acid phosphatase. Morphological and cytochemical criteria suggest that in some invading carcinomas, as with non-tumor migrating cells such as leukocytes, widespread proteolysis due to diffusion of proteases is not a prerequisite for invasion of stromal connective tissue.

Ascites tumor invasion of mouse peritoneum studied by high-voltage electron microscope stereoscopy

Interaction of Krebs-2 and Ehrlich tetraploid cells with NYLR/Nya mouse peritoneum mesothelium and penetration of basal lamina and elastic reticulum were studied. Invasion of abdominal viscera was rare. Invading cells had a shrunken nucleus and cytoplasm like the "dark cells" of hyperplastic epithelia. High-voltage electron microscope stereoscopy showed that invasive cells pass through small holes in the elastic reticulum by adherence to the reticulum and by constriction of the cells. High voltage electron microscopy stereoscopy of collagen fibers near tumor cells indicated that fragmentation and loss of collagen is minimal. Rapid progression by ascites transfer appears to produce anchorage-independent cells adapted to ascites fluid growth, but new selection steps must be adopted to concentrate strongly invasive subpopulations.

Reproducibility of electron diffraction intensity data obtained from hydrated microcrystals of rat hemoglobin

Analysis of electron diffraction patterns from rat hemoglobin taken at 200 kV on a wet stage yields intensity data to a resolution of 2-3 A which are as reproducible as those from typical X-ray diffraction. Some crystals were so similar that the differences in measured intensities were insignificant (R = 0.056), but in other cases real differences between crystals were observed (R = 0.33). Dynamic scattering was insignificant under our diffraction conditions; however, exposures to electron doses as low as 10(-2) e/A2 produced detectable changes in measured intensities. Limits to the reproducibility of the data are set by radiation damage and errors in microdensitometry.

Design and operation of a differentially pumped environmental chamber for the HVEM

A differentially pumped environmental chamber, or DIFPEC, has been developed for the AEI EM7 1.2 MV HVEM. The chamber is suitable for imaging and diffraction studies and is capable of operation at pressures approaching one atmosphere. Any mixture of gases can be used including water vapor supplied from an internal reservoir. Correct operation is demonstrated by measurements of temperature, pressure, and water consumption. High resolution (0.2 nm) diffraction patterns were recorded from unfixed, unstained, fully hydrated catalase crystals. This is good functional test of DIFPEC operation and specimen preparation because catalase disorders irreversibly of exposed to less than 95% relative humidity. High- and low-angle diffraction patterns were recorded from unfixed, unstained, fully hydrated rat hemoglobin crystals. All patterns were recorded using 10-4 C/cm2. Whole cell mounts prepared in different ways were imaged and show that 5.3 kPa of nitrogen gas has no detrimental effect on image contrast or resolution. The column vacuum and differentially pumped volume pressure were measured for a number of pumping configuration, as well as for several gases and pressures in the specimen volume. The pressure in the high vacuum portion of the objective lens gap is conductance-limited when the DIFPEC is in place.

Use of fast x-ray film for low-influence biological electron microscopy at 100 kV and 1000 kV

A user evaluation has been made by electron microscopists of an X-ray film for routine electron microscopy. The recent improvements in mammographic X-ray films, with the attempt to reduce the patient dose required to produce a high-resolution mammogram, have resulted in some useful films for medium- and high-voltage electron microscopy. They can yield essential cytological information with a reduction of the electron fluence (exposure) applied to the specimen of more than an order of magnitude compared with conventional electron-microscope films. Their use is indicated in situations where beam damage is severe.

A perspicuous technique for directly visualizing radiation-damage artefacts in biological electron microscopy

Levels of impairment of electron-microscopic images of biological specimens stemming from radiation damage are assessed in a rapid visual procedure that involves taking a pair of low-fluence micrographs of a specimen area before and after a fraction of the picture area has been more seriously damaged by applying a measured electron fluence. The pair of micrographs is treated as a mock-stereo pair and is given contrasting colours. Lateral displacements of specimen details appear as false relief and changes in electron lucency as false colour.

Small-angle X-ray scattering from mitochondria

X-ray (CuKalpha) scattering curves of rat liver mitochondria are characterized by continuously decreasing intensity from 0.5 to 5 mrad and a broad maximum centered near 20 mrad. The condensed-to-orthodox morphological transition of the inner membranes of intact mitochondria causes a dramatic decrease in scattering at very small angle and a marked shift of the 20 mrad maximum to smaller angle. A similar small-angle scattering maximum is observed with inner mitochondrial membrane fractions prepared by digitonin treatment and osmotic shock/step gradient centrifugation procedures. However, the small-angle X-ray scattering curves of mitochondria after acetone treatment and osmoticlysis/sonication are essentially continuous. These characteristics of mitochondrial X-ray scattering are discussed in terms of known structural features of the organelle.