The prevalence of encoded digital trace evidence in the nonfile space of computer media(,) (.).

Forensically significant digital trace evidence that is frequently present in sectors of digital media not associated with allocated or deleted files. Modern digital forensic tools generally do not decompress such data unless a specific file with a recognized file type is first identified, potentially resulting in missed evidence. Email addresses are encoded differently for different file formats. As a result, trace evidence can be categorized as Plain in File (PF), Encoded in File (EF), Plain Not in File (PNF), or Encoded Not in File (ENF). The tool bulk_extractor finds all of these formats, but other forensic tools do not. A study of 961 storage devices purchased on the secondary market and shows that 474 contained encoded email addresses that were not in files (ENF). Different encoding formats are the result of different application programs that processed different kinds of digital trace evidence. Specific encoding formats explored include BASE64, GZIP, PDF, HIBER, and ZIP.

Th2-mediated anti-tumour immunity: friend or foe?

The concept that the immune system can recognise tumour cells and either eliminate them (tumour immune surveillance) or select for immunologically resistant variants (immunoediting) is gaining general acceptance by immunologists. In terms of an adaptive immune response to cancer, however, much of the research has focused on the response of cytotoxic CD8+ T lymphocytes to tumour-specific antigens and the production of Th1 cytokines by CD4+ and CD8+ T cells. In contrast, Th2-mediated immunity has traditionally been viewed as favouring tumour growth, both by promoting angiogenesis and by inhibiting cell-mediated immunity and subsequent tumour cell killing. While there is evidence that components of type 2 inflammation, such as B cells and interleukin-10, do promote tumour growth, there are also many studies demonstrating the anti-tumour activity of CD4+ Th2 cells, particularly in collaboration with tumour-infiltrating granulocytes, such as eosinophils. In this review, we examine all the components of type 2 immunity and their effects on tumour growth. Collectively, from this analysis, we conclude that there is a great potential for the development of Th2-mediated immunotherapies that harness the cytotoxic activity of eosinophils.

Chemokine and cytokine cooperativity: eosinophil migration in the asthmatic response.

Eosinophils play a central role in the pathophysiology of allergic disease. The mechanisms that regulate eosinophil migration are complex; however, chemokines and cytokines produced in both the early and late phases of the asthmatic response appear to cooperate in eosinophil recruitment. In particular, there exists a unique synergy between eotaxin and IL-5. The role of chemokine/cytokine cooperativity has been investigated in the extracellular matrix, adhesion molecule/integrin interactions, receptor polarization and aggregation and the convergence and divergence of intracellular signalling pathways. Understanding the mechanisms whereby eosinophils migrate will allow the development of specific therapeutic strategies aimed at attenuating specific components of the allergic response.

Competition by second messenger systems for receptor interaction and activation: implications for tissue-specific responses and disease therapy.

1. At any one instant, most receptors are now recognized to be able to stimulate multiple signal transduction pathways in a cell when activated by an appropriate hormone. These different signalling pathways appear to allow for distinct cellular responses, such as cell proliferation, differentiation, and shape change. 2. In addition, many different types of cell will possess the same type of receptor. Therefore, for a hormone to be able to transmit differential signals to the various cell types able to respond to it, cells must discriminate the stimulus at some point. Such discrimination would seem to be an absolute requirement to allow a tissue-specific response to an identical initial stimulus. In theory, this specificity could occur at many points in the receptor signal transduction cascade, including cytosolic receptor coupling systems and tissue/cell-specific responsive genes. 3. The present paper summarizes our work and that of others which has determined some of the coupling systems of G-protein-coupled receptors and tyrosine kinase receptors and how these systems may be interacting. 4. In addition to these theoretical considerations, a potential therapeutic strategy underlies the ability of receptors to couple to more than one signal transduction system. If a response to a hormone were, for example, either cell proliferation or cell morphological change or differentiation and separate receptor-coupled signalling systems were responsible for these effects, pharmacological intervention may allow the transfer from one signalling system to another. If such a change allowed a permanent change to the differentiated phenotype, this could potentially form the basis of a signal-based cancer therapy.

The G-protein G(i) regulates mitosis but not DNA synthesis in growth factor-activated fibroblasts: a role for the nuclear translocation of G(i).

GTP binding proteins, heterotrimeric molecules composed of alpha-, beta-, and gamma-subunits, are known to serve as transducers of information from seven-transmembrane receptors. Activation of G-proteins has been generally considered to involve subunit dissociation, with G(alpha) separating from G(betagamma). However, we have found a receptor activation of G(i) in proliferating cells that differs from these models and involves the subcellular translocation of the alpha-subunit from the cell periphery to the nucleus where G(i alpha) binds to chromatin for the duration of mitosis. This report describes the mechanism of G(i) activation in Swiss 3T3 cells in response to serum, thrombin, and epidermal growth factor, and describes a role for G(i2) in the cell cycle. Agonists were found to be unable to induce the physical dissociation of G(i2) subunits. The alpha- and beta-subunits of G(i2) could be coimmunoprecipitated with a G(i alpha) antibody from both the membrane and nuclear fractions of long-term activated cultures, showing that G(i alpha 2) and G(i beta) are induced to comigrate to the nucleus in response to growth factor receptor activation. G(i2) appears to be activated in part by a postreceptor signal that can be mimicked by protein kinase C activation; this signal may be responsible for the convergence of the signaling mechanisms of these distinct seven-transmembrane and tyrosine kinase receptors. We suggest that translocation of G(i alpha) to the nucleus induced by either thrombin or EGF may occur without subunit dissociation. Functional studies of the role of G(i) showed that pertussis toxin does not block DNA synthesis in Swiss 3T3 fibroblasts induced by serum or thrombin, but that cell proliferation is retarded to each. These results provide direct evidence for a novel mechanism of GTP binding protein activation and for an essential role of G(i) in the induction of cell division by a variety of growth factor receptors. G(i) can carry out this role in control of cellular proliferation through its translocation to the nucleus of mitotic cells.

Interaction of the GTP-binding protein Gi2 with a protein kinase A-like kinase in mouse fibroblasts.

We have previously shown that the GTP-binding protein, Gi2 of mouse Balb/c3T3 cells is linked to a serine kinase which phosphorylates the alpha-subunit of Gi itself. In this report we show that Gi is coupled to a second protein kinase. This kinase does not phosphorylate G but phosphorylates another protein bound non-covalently to G. Phosphorylation of the Gi-linked protein induces its release from Gi. Kinase activity is slightly enhanced by GTPyS, suggesting that this kinase may be physiologically regulated by Gi. In an attempt to identify the kinase we have examined the effect of peptide substrates and inhibitors on kinase activity. We found that the protein kinase A inhibitory peptide, PK1 5-24, inhibited the kinase activity, but at concentrations above those usually required to block protein kinase A. The protein kinase A substrate peptide, kemptide, acted as a substrate of the kinase, and was an inhibitor of the phosphorylation of the Gi-linked protein. However, a protein kinase A, catalytic subunit antibody failed to react with any proteins linked to Gi., A protein kinase C inhibitory peptide had no effect on phosphorylation of the Gi-linked protein. Thus, the identity of this kinase has not been resolved, but it may form part of the signalling system of activated Gi in fibroblasts.

The GTP-binding protein Gi alpha 2 is directly linked to and substrate of a serine kinase in Balb/c3T3 cells.

Mitosis of Balb/c3T3 cells induced by epidermal growth factor and insulin is inhibited by pertussis toxin. Pertussis toxin inactivates certain GTP-binding proteins, of which only Gi is present in Balb/c3T3 cells. Therefore, Gi was implicated as important in the signal transduction of EGF and insulin receptors leading to mitosis. Our previous studies of the role of Gi in cell division have shown that the alpha-subunit of Gi(Gi alpha) is induced to translocate from the cell periphery to the nucleus by these growth factors, and in the nucleus of dividing cells Gi alpha binds to the separating chromatin. As protein phosphorylations are essential components of the messenger systems from these receptors, we have examined whether Gi could be functionally coupled to protein kinases in the activated cell. We have found that Gi alpha 2 is directly linked to a serine kinase in Balb/c3T3 fibroblasts, and that Gi alpha 2 itself is a substrate for phosphorylation in vitro. This phosphorylation of Gi alpha 2 is inhibited if the G-protein is first activated with GTP or inactivated with GDP, suggesting that the phosphorylation may be occurring in the guanine nucleotide binding region. We present evidence that the kinase is not a protein kinase C. Such a phosphorylation of Gi alpha 2 could represent either a negative feedback mechanism of signal transduction, or a GTP-independent pathway of G-protein signal transduction in fibroblasts.

Medicolegal investigation of an eighteenth century homicide.

The skeleton of an adult man, recovered from an eighteenth century French fort site in Indiana, exhibited a series of sharp force wounds. The lesions, three cranial and one postcranial, had apparently been made by a heavy metal instrument similar to one of the European ax heads discovered elsewhere at the site. In this paper we describe the wounds, argue that the instrument used to create them was a European ax, and offer the opinion that the manner of death in this case was homicide.

Clarifying the role of forensic anthropologists in death investigations.

Although their customary role is the identification of decomposed human remains, forensic anthropologists are frequently called upon to provide evidence for or to testify about the circumstances that surrounded a particular death. The literature is ambiguous and contradictory about the role of anthropologists in death investigations. Relying upon traditional distinctions, we present three cases that illustrate the presence of evidence for "manner of death" on decomposed remains. Then we argue that evidence for vital reactions, necessary for the determination of "cause of death," rarely if ever survives skeletonization, and while forensic anthropologists can be expected to provide evidence for the determination of manner of death, they are unlikely to contribute to the discovery of its cause.

Bacterial transmigration as an indicator of time of death.

Time of death is difficult to evaluate in many forensic science situations. We have developed an animal model for assessing the time of death by evaluating the transmigration of normal microbiota through the wall of the small intestine. A segment of small intestine was removed from decapitated CF-1 mice ( Carnsworth Farms) and suspended in vitro in a beaker containing sterile phosphate-buffered saline. Bacterial transmigration was evaluated in this model over a three-day period at select temperatures (4, 25, and 37 degrees C) by microbiological cultures and scanning electron microscopy (SEM). Evidence of bacterial transmigration by SEM occurred within 2 to 3 h at 37 degrees C, 5 to 6 h at 25 degrees C, and 72 h at 4 degrees C. Analysis of the microbiological data indicated a differential flux of select bacterial and mycotic organisms. Staphylococcal species were the first organisms to be cultured from the suspending saline. These organisms are known to elaborate powerful protease enzymes that may play an important role in the degeneration of gut tissues. Coliform-type organisms and candida species were found at later times after death. The last major groups of bacteria to be identified were a variety of anaerobic species. This model may be adaptable to certain situations in human forensic pathology.

Cardiac concussion following softball blow to the chest.

We report two cases of sudden death in young men following softball blows to the chest. The deaths were presumed to be due to cardiac dysrhythmias because no significant traumatic lesions were found at autopsy. Cardiac concussion has rarely been reported to cause death. Lethal cardiac dysrhythmias may, however, occur following a sharp precordial blow without producing detectable chest wall or intrathoracic lesions.

Angiography and histopathology of nephroblastomatosis.

A case of nephroblastomatosis (diffuse bilateral Wilms' tumor) in association with congenital hemihypertrophy is reported and the angiographic findings presented. Serial angiograms and tissue biopsies documented the transition from nodular renal blastema to Wilms' tumor.