Anthony S.-Y. Leong

Multiple organ infection and the pathogenesis of SARS

After >8,000 infections and >700 deaths worldwide, the pathogenesis of the new infectious disease, severe acute respiratory syndrome (SARS), remains poorly understood. We investigated 18 autopsies of patients who had suspected SARS; 8 cases were confirmed as SARS. We evaluated white blood cells from 22 confirmed SARS patients at various stages of the disease. T lymphocyte counts in 65 confirmed and 35 misdiagnosed SARS cases also were analyzed retrospectively. SARS viral particles and genomic sequence were detected in a large number of circulating lymphocytes, monocytes, and lymphoid tissues, as well as in the epithelial cells of the respiratory tract, the mucosa of the intestine, the epithelium of the renal distal tubules, the neurons of the brain, and macrophages in different organs. SARS virus seemed to be capable of infecting multiple cell types in several organs; immune cells and pulmonary epithelium were identified as the main sites of injury. A comprehensive theory of pathogenesis is proposed for SARS with immune and lung damage as key features.

Prognostic relevance of immunohistochemically detected lymph node micrometastasis in patients with gastric carcinoma

Micrometastases consisting of one to a few cells in lymph nodes resected during gastrectomy are difficult to identify using conventional hematoxylin and eosin (H&E) stains. It has been shown that immunostaining for cytokeratins is effective in detecting lymph node micrometastasis in a variety of human tumors, but only a few previous reports demonstrated its use in the treatment of patients with early and advanced gastric carcinoma, and those reports had conflicting results.

Epidemiology and carcinogenesis of hepatocellular carcinoma

The incidence of hepatocellular carcinoma (HCC) shows marked variation worldwide but the magnitude of this tumor is reflected by the occurrence of at least 1 million new cases annually and the uniformly dismal outlook with median survivals of <25 months after resection and <6 months with symptomatic treatment. The strikingly uneven distribution of this tumor parallels the prevalence of hepatitis B infection with rising incidence in western countries attributed to hepatitis C infection. Chronic hepatitis and cirrhosis constitute the major preneoplastic conditions in the majority of HCCs and may be related to other etiologic agents such as environmental chemical carcinogens including nitrites, hydrocarbons, solvents, organochlorine pesticides, and the chemicals in processed foods, cleaning agents, cosmetics and pharmaceuticals, as well as plant toxins such as anatoxins produced by fungi that cause spoilage of grain and food in the tropics. Genetic diseases such as genetic hematochromatosis, Wilsons disease, alpha-1-antitrypsin deficiency, and the inborn errors of metabolism including hereditary tyrosinemia and hepatic porphyria, are known to be associated with HCC. Numerous genetic alterations and the modulation of DNA methylation are recognized in HCC and it is likely that these genetic and epigenetic changes combine with factors involved in chronic hepatocyte destruction and regeneration to result in neoplastic growth and multiple molecular pathways may be involved in the production of subsets of hepatocellular tumors.

Biologic markers in ductal carcinoma in situ and concurrent infiltrating carcinoma. A comparison of eight contemporary grading systems.

The relevance of 8 contemporary classification and grading systems for ductal carcinoma in situ (DCIS) of the breast was examined in 100 tumors by comparing DCIS grade with grade of the concurrent infiltrating ductal carcinoma (IDC). Besides tumor size and nodal status, the immunohistochemical parameters in both lesions were compared, including estrogen receptor, progesterone receptor, c-erbB-2 protein, E-cadherin, vimentin, Ki-67 (MIB1), and p27. Nuclear grading of DCIS alone or in combination with architectural pattern and necrosis showed the best correlation with grade of the invasive component. There also was a positive correlation between every biologic marker expressed in DCIS and in the concurrent IDC, supporting a clonal relationship. Biologic markers varied between the different grades of DCIS. DCIS is heterogeneous, and the progression of DCIS to IDC may be from low-grade DCIS to low-grade IDC and high-grade DCIS to high-grade IDC. This concept is different from the conventional model held for intraepithelial neoplasia in the cervix, vulva, vagina, and skin, in which there is increasing severity of in situ atypia (dysplasia) before the development of stromal invasion.

The Changing Role of Pathology in Breast Cancer Diagnosis and Treatment

Pathological examination has been the gold standard for diagnosis in cancer and its role has also included the elucidation of etiology, pathogenesis, clinicopathological correlation, and prognostication. The advent of newer technologies and the realization that breast cancer is heterogeneous has shifted the focus to prognostication, with increased attention being paid to the identification of morphological features and immunohistochemical markers of prognostic relevance. However, despite the massive efforts invested in the identification of immunohistochemical biomarkers in breast cancer the majority have not proven to be of value in multivariate analyses and only estrogen receptor, progesterone receptor, and Her2/neu expression have remained essential components of pathological examination. These 3 markers were initially employed for prognostication but their role in treatment also rendered them of predictive value. Newer molecular methods, especially high-throughput technologies, have shown that even morphologically similar subtypes of breast cancer can show molecular heterogeneity; moreover, infiltrating ductal carcinoma can be separated into at least 4 molecular subtypes designated luminal (ER+, PR+, and Her2/neu–), Her2 overexpressing (ER–, PR–, and Her2/neu+), basal-like (ER–, PR–, Her2/neu–, and CK5/6+, EGFR+), and normal breast-like (ER–, PR–, and Her2/neu–), each with different clinical outcomes. The importance of proliferative gene expression in these subtypes has been demonstrated and surrogate immunohistochemical markers include ER, PR, Her2/neu, and Ki67 for the more expensive molecular tests. Molecular technologies, importantly, have not only provided further insights into the heterogeneity of breast cancer but have also opened new avenues for treatment through the identification of signaling molecules important in the proliferation and survival of the neoplastic cells. The treatment of cancer thus shifts from the conventional approach of ‘one size fits all’ to one of personalized treatment tailored to the specific characteristics of the tumor. Pathologists continue to play their traditional role in diagnosis but, as purveyors of the excised tissue, pathologists now have the additional role of identifying biomarkers responsive to therapeutic manipulation, thus playing an inextricable role as diagnostic oncologists in the management of breast cancer.

How Does Antigen Retrieval Work

The introduction of antigen retrieval has enabled immunohistology to become an integral component of morphologic diagnosis, routinely employed in cancer diagnosis, and for the identification of therapeutic and prognostic markers. The mechanism of antigen retrieval, however, remains speculative with the key to our understanding embedded in the actions of formaldehyde on proteins. One commonly held concept is that heat primarily breaks down protein cross-linkages that occur with aldehyde fixation, thus “unmasking” protein epitopes of interest. Enzymatic pretreatment is also thought to have a similar action whereas such “breakages” are the result of extremely rapid molecular movement induced by microwaves and ultrasound. The formation of rigid cagelike calcium complexes during formaldehyde fixation is another suggested mechanism of antigen masking requiring chelating agents for reversal. A more recent suggestion for the antigen retrieval phenomenon has evoked the Mannich reaction, which occurs with the cross-linking of some proteins. Such cross-linkages can be hydrolyzed by heat or alkalis so that the process of antigen retrieval may be the simple removal of such cross-linked proteins that are sterically interfering with the binding of antibodies to linear protein epitopes in the tissue section. We are clearly not yet in possession of all the answers to the problem.

Digital imaging in pathology: theoretical and practical considerations, and applications

Digital imaging is rapidly replacing photographic prints and Kodachromes for pathology reporting and conference purposes. Advanced systems linked to computers allow greater versatility and speed of turn-around as well as lower costs, allowing the incorporation of macroscopic and microscopic pictures into routine pathology reports and publications. Digital images allow transmission to remote sites via the Internet for primary diagnosis, consultation, quality assurance and educational purposes and can be stored and disseminated in CD-ROMs. Total slide digitisation is now a reality and has the potential to replace glass slides to a large extent. There are extensive applications of digital images in education and research, allowing more objective and automated quantitation of a variety of morphological and immunohistological parameters. Three-dimensional images of gross specimens can be developed and posted on websites for interactive educational programs and preliminary reports indicate that medical vision systems are a reality and can provide for automated computer generated histopathological diagnosis and quality assurance.

Ultra-rapid microwave-stimulated tissue processing with a modified protocol incorporating microwave fixation

Aims: To develop an ultra‐rapid microwave (MW)‐stimulated histoprocessing protocol that incorporates MW fixation and produces consistent, high quality sections. Methods: A range of fresh autopsy tissues was divided into three groups composed of equal numbers of small and large tissue blocks. Group 1 tissues were fixed for 8 hours in 4% buffered formaldehyde and processed in a conventional tissue processor through a 15‐hour cycle. Group 2 tissues were processed in a MW histoprocessor according to the manufacturers recommended protocol of irradiation in a proprietary reagent before embedding in paraffin. Group 3 tissues were processed with our protocol that incorporated the addition of MW fixation in 4% buffered formaldehyde and MW irradiation in isopropyl alcohol after irradiation in the proprietary reagent. Results: The manufacturers protocol resulted in ‘grey’ and ‘wet look’ artefacts in large tissue blocks. These artefacts did not occur in our protocol which produced sections that were indistinguishable from those obtained with conventional 23‐hour processing. Histochemical and immunohistochemical stains were also indistinguishable and the tissue blocks cut very smoothly. Conclusions: The incorporation of an additional step to ensure adequate tissue fixation and one to ensure optimal dehydration and clearing resulted in a MW histoprocessing protocol that produced consistent results for both large and small tissue blocks. Paraffin‐impregnated blocks can be produced very rapidly from fresh small and large tissue blocks in 45 and 100 minutes, respectively.

Immunohistological localisation of human FAT1 (hFAT) protein in 326 breast cancers. Does this adhesion molecule have a role in pathogenesis

Aims: To examine the immunohistological expression in human breast cancers of human FAT1 (hFAT) protein, a recently described member of the cadherin superfamily, and its correlation with histological type and grade. Methods: A total of 326 cases of invasive and in situ breast cancer representing a broad spectrum of histological subtypes were immunostained with affinity‐purified rabbit antibodies produced to the cytoplasmic region of hFAT using a standard avidin–biotin system. Staining intensity was arbitrarily graded on a scale of 0 to 3. Results: All tumours showed diffuse staining for hFAT. Immunoexpression of the protein was generally strong in both lobular (LCIS, n = 2) and ductal in situ carcinoma (DCIS, n = 55). hFAT was also strongly immunoexpressed in all types of invasive carcinoma. Grade 3 DCIS displayed the highest hFAT intensity compared with lower grade tumours, with significant differences between grade 1 and 3 (p = 0.015) and grade 2 and 3 (p = 0.047). With invasive ductal carcinomas (n = 128) the difference was not as clear‐cut, as most tumours showed moderate (n = 63) or strong staining (n = 49), although grade 3 IDC revealed significantly decreased immunoexpression compared with grade 1 IDC (p = 0.03). Conclusions: The results illustrate that hFAT1 does not display the pattern of expression seen with the E‐cadherin–&bgr;‐catenin adhesion complex; however, its over‐expression and diffuse expression in both in situ and invasive carcinoma strongly suggests a role in carcinogenesis. From the known functions of FAT1 it is suggested that the concurrent loss of classical cadherins from cell‐cell junctions accompanied by increased FAT1 expression contributes to loss of duct formation, and increased cell migration and invasion.

Controversies in the assessment of HER-2: more questions than answers.

Human epidermal growth factor receptor 2 (HER-2) is over-expressed in 15% to 30% of breast cancers and is a poor prognostic marker in node-positive patients. HER-2 expression is an indicator of greater sensitivity to anthracycline-based chemotherapy and is the major criterion for selection for treatment with the anti–HER-2 antibody trastuzumab (Herceptin). Fluorescence in situ hybridization and immunohistochemistry (IHC) are the 2 most commonly used methods for detection of the gene and protein, respectively. Criticisms have been levied at the IHC method of identifying HER-2 overexpression but convenience and costs of this technique cannot be overlooked. Modifications to the IHC technique and scoring accommodate for many of the problems that derive from variables in preanalytical and analytic factors that influence results but standardization is currently impossible to attain. Deficiencies in fluorescence in situ hybridization assay also exist and alternative molecular methods of assay are explored in this review.