An ultrastructural pathologist's views on fibroblasts, modified smooth muscle cells, wound healing, stenosing arteriopathies, Kawasaki disease, Dupuytren's contracture, and the stroma of carcinomas.

It wasn't until 1960 that the dense bodies of the peripheral actin arrays of fibroblasts were finally visualized, i.e., stress fibers (SFs). Mistakenly assumed that its SFs turned the fibroblast into a unique cell situated somewhere in a continuum between it and a smooth muscle cell (SMC), it was descriptively named a "myofibroblast" (MF). Automatically, spindle cells with SFs and/or smooth muscle actin by SMA IHC-staining, became MFs, although endothelial cells, pericytes, modified SMCs (mSMC), and myoepithelial cells all contain SFs. An invisible "intermediate" cell was hypothesized to exist somewhere between SMA-negative and positive fibroblasts, and named a "proto-myofibroblast". The sub-epithelial spindle cells of normal and malignant tumors of the GI, GU, and respiratory tracts are all fibroblasts with SFs. The second erroneous myofibroblast came from a 1971 rat wound healing study and its 1974 human counterpart. Updated analysis of the papers' TEMs proved that the cells are mSMCs and not fibroblasts (AKA: MFs). The pathognomonic cells of Dupuytren's contracture are mSMCs and fibroblasts and that of the stenosing arteriopathy of Kawasaki Disease and other similar arteriopathies are mSMCs. TEM remains a powerful tool.

The "myofibroblast" that is omnipresent in pathology and key to the EMT concepts does not actually exist, since normal fibroblasts contain stress fibril organelles (SMA bundles with dense bodies) variably detected by TEM and IHC: conclusions by a diagnostic pathologist with decades of ultrastructural experience.

The so-called "enigmatic" unique "myofibroblast" has been erroneously substituted for virtually all things fibroblastic in soft tissue pathology and believed to be the ultimate fibrogenic cell. It is also internationally considered to be the mesenchymal cell in un-proven post-natal EMT, EMT organ/tissue fibrosis, and the assumption that EMT/MET is key to carcinoma/adenocarcinoma invasion and metastasis. However, no such cell exists, having been mistaken for our normal ubiquitous fibrogenic fibroblasts that contain peripheral bundles of actin (SMA) with dense bodies, i.e. stress fibril (SF) organelles variably detectable by TEM and SMA IHC, depending on the degree of activation. The only detectable features distinguishing what are erroneously believed to be two unique fibrogenic spindle cells are the SF. Is the variable detection of SF/SMA in fibroblastic and non-fibroblastic lesions significant? Carcinosarcomas are not bi-phasic malignancies or proof of EMT/MET. What does it mean that the fibroblasts of so-called "carcinoma-associated fibroblasts (CAF)" are not "myofibroblasts"? The true myofibroblast is the ultrastructurally and functionally unique, terminally-differentiated, pathognomonic cell of physiologic wound-healing, which unfortunately has been confused with the activated fibroblast. This study fails to demonstrate any ultrastructural evidence that either normal epithelial (EMT) or carcinoma/adenocarcinoma cells can undergo reversible transition into mesenchymal cells (EMT/MET) under any circumstances. The SF/SMA-positive fibrogenic cell in organ/tissue fibrosis is the genetically up-regulated, activated fibroblast, which has no relationship to EMT. Are any of the innumerable biochemical factors/elements considered to be associated with this non-existent cell and its related processes related to the activated fibroblast? The conclusions are based on review of every electron micrograph taken during a 40-year career in diagnostic and research ultrastructural pathology, and by confirming that the published TEM figures of so-called "myofibroblasts", are actually of fibroblasts.

The so called "malignant fibrous histiocytoma" is actually an unusual fibrosarcoma.

The so-called "malignant fibrous histiocytoma (MFH)" has become progressively more enigmatic since entering the soft tissue tumor field, based on tissue culture studies performed almost 50 years ago. It inexplicably evolved from an exceedingly common soft tissue diagnosis into a problematic diagnosis. Because of the conundrum, clinicians require that "malignant fibrous histiocytoma", the name that they are familiar with, appears somewhere in the diagnosis. A recent review of the electron micrographs from 157 MFHs diagnosed over 32 years appears to explain how it was misnamed and its true identity, and as a consequence requires an updating of its clinico-pathologic correlation (CPC). It is an unusual fibroblastic entity that has the capacity to attract, activate, and stimulate fusion of normal macrophages.

Three linked vasculopathic processes characterize Kawasaki disease: a light and transmission electron microscopic study.

BACKGROUND: Kawasaki disease is recognized as the most common cause of acquired heart disease in children in the developed world. Clinical, epidemiologic, and pathologic evidence supports an infectious agent, likely entering through the lung. Pathologic studies proposing an acute coronary arteritis followed by healing fail to account for the complex vasculopathy and clinical course. METHODOLOGY/PRINCIPAL FINDINGS: Specimens from 32 autopsies, 8 cardiac transplants, and an excised coronary aneurysm were studied by light (n=41) and transmission electron microscopy (n=7). Three characteristic vasculopathic processes were identified in coronary (CA) and non-coronary arteries: acute self-limited necrotizing arteritis (NA), subacute/chronic (SA/C) vasculitis, and luminal myofibroblastic proliferation (LMP). NA is a synchronous neutrophilic process of the endothelium, beginning and ending within the first two weeks of fever onset, and progressively destroying the wall into the adventitia causing saccular aneurysms, which can thrombose or rupture. SA/C vasculitis is an asynchronous process that can commence within the first two weeks onward, starting in the adventitia/perivascular tissue and variably inflaming/damaging the wall during progression to the lumen. Besides fusiform and saccular aneurysms that can thrombose, SA/C vasculitis likely causes the transition of medial and adventitial smooth muscle cells (SMC) into classic myofibroblasts, which combined with their matrix products and inflammation create progressive stenosing luminal lesions (SA/C-LMP). Remote LMP apparently results from circulating factors. Veins, pulmonary arteries, and aorta can develop subclinical SA/C vasculitis and SA/C-LMP, but not NA. The earliest death (day 10) had both CA SA/C vasculitis and SA/C-LMP, and an "eosinophilic-type" myocarditis. CONCLUSIONS/SIGNIFICANCE: NA is the only self-limiting process of the three, is responsible for the earliest morbidity/mortality, and is consistent with acute viral infection. SA/C vasculitis can begin as early as NA, but can occur/persist for months to years; LMP causes progressive arterial stenosis and thrombosis and is composed of unique SMC-derived pathologic myofibroblasts.

Opportunistic disorders of the gastrointestinal tract in the age of highly active antiretroviral therapy.

Since the 1996 advent of highly active antiretroviral therapy (HAART) for the treatment of HIV/AIDS, the incidence of most opportunistic disorders in the developed world has dramatically declined but definitely has not disappeared. The number of new yearly HIV infections (about 55,000) and the total number of US infections (more than 1.1 million) remain very significant. Post-HAART gastrointestinal (GI) symptoms and biopsy results are still common, especially in large inner-city hospitals. The same opportunistic GI disorders were diagnosed in 442 endoscopies performed since 1996 as before, but at about one half the rate. The esophagus had the highest rate of positive biopsy results (46%), especially due to Candida. Helicobacter pylori infection has become the most common gastric infection. The small bowel still showed cytomegalovirus (CMV), cryptosporidia, and Mycobacterium avium complex (MAC) infections. In decreasing order, the most common large bowel infections were CMV, cryptosporidiosis, MAC, and spirochetosis. Cases of adenovirus, bacterial colitis, Kaposi sarcoma, and lymphoma were still diagnosed. Rectal biopsy specimens were the least productive. Microsporidiosis is now being diagnosed with special stains. Thus, where HIV/AIDS is common, it is important to be able to diagnose these GI processes. In addition to presenting post-HAART incidences, diagnostic features and aids are described for selected entities.

Ultrastructure of Kaposi sarcoma.

Kaposi sarcoma (KS) is a complex disease with aspects of virology (human herpesvirus-8, HHV-8, and human immunodeficiency virus, HIV), immunology (immunodeficiency), hyperplasia (multiple widely spaced de novo lesions), and neoplasia (metastases) that has always been the most common AIDS-defining malignancy. The lesional spindle cell has been classified as being derived from either blood vascular or, more recently, lymphatic endothelial cell origin. This study revealed a spectrum of endothelial cell ultrastructure from lymphatic to blood vascular. It demonstrated frequent Weibel-Palade bodies and gap junctions. The spindle cells were shown to behave as facultative phagocytes, internalizing and processing necrotic cells and leaked red blood cells (RBCs). Fragmented RBCs were equivalent to the "hyaline droplets" seen by light microscopy. The final stages of RBC disintegration were hemosiderin and ferritin. Most significantly, this study disclosed that KS is actually composed of a single type of randomly oriented spindle cell forming vessels of varying size and integrity.

Hyperplastic lymphoid tissue in HIV/AIDS: an electron microscopic study.

The purpose of this study was to characterize the ultrastructure of lymphoid tissue from HIV/AIDS patients and to evaluate it as a reservoir and source of HIV. HIV has been demonstrated in lymph nodes and tonsils and adenoids, by immunohistochemistry (IHC), in situ hybridization (ISH), and transmission electron microscopy (TEM), to be associated with germinal center (GC) follicular dendritic cells (FDC). The presence of HIV in the larger gastrointestinal tract-associated lymphoid tissue (GALT) has been much less studied. Whether FDC themselves are productively infected by HIV in any of the lymphoid sites is controversial. Lymph nodes, tonsils, and gastrointestinal biopsies were fixed in neutral buffered glutaraldehyde and prepared for TEM. Mature HIV particles were abundant in GC of hyperplastic lymph nodes, tonsils, and the GALT. They were enmeshed within an electron-dense matrix associated with an all-encompassing branching FDC network of processes. HIV particles were seen budding from both FDC and lymphocytes. The greatest numbers of particles were seen in hyperplastic lymphoid tissue from untreated individuals and in lymph nodes co-infected with opportunistic organisms, such as Mycobacterium avium complex. In addition to HIV, unidentifiable "particles" of varying sizes, possibly including other viruses, were regularly seen in association with FDC. Ultrastructural study graphically demonstrated the abundance of HIV particles associated with the complex FDC network of hyperplastic lymph nodes, tonsils, and GALT. HIV was shown to productively infect FDC, as well as lymphocytes.

PPEY motif within the rabies virus (RV) matrix protein is essential for efficient virion release and RV pathogenicity.

Late (L) domains containing the highly conserved sequence PPXY were first described for retroviruses, and later research confirmed their conservation and importance for efficient budding of several negative-stranded RNA viruses. Rabies virus (RV), a member of the Rhabdoviridae family, contains the sequence PPEY (amino acids 35 to 38) within the N terminus of the matrix (M) protein, but the functions of this potential L-domain in the viral life cycle, viral pathogenicity, and immunogenicity have not been established. Here we constructed a series of recombinant RVs containing mutations within the PPEY motif and analyzed their effects on viral replication and RV pathogenicity. Our results indicate that the first proline at position 35 is the most important for viral replication, whereas P36 and Y38 have a lesser but still noticeable impact. The reduction in viral replication was most likely due to inhibition of virion release, because initially no major impact on RV RNA synthesis was observed. In addition, results from electron microscopy demonstrated that the M4A mutant virus (PPEY-->SAEA) displayed a more cell-associated phenotype than that of wild-type RV. Furthermore, all mutations within the PPEY motif resulted in reduced spread of the recombinant RVs as indicated by a reduction in focus size. Importantly, recombinant PPEY L-domain mutants were highly attenuated in mice yet still elicited potent antibody responses against RV G protein that were as high as those observed after infection with wild-type virus. Our data indicate that the RV PPEY motif has L-domain activity essential for efficient virus production and pathogenicity but is not essential for immunogenicity and thus can be targeted to increase the safety of rabies vaccine vectors.

Processing tissue and cells for transmission electron microscopy in diagnostic pathology and research.

In transmission electron microscopy (TEM), electrons are transmitted through a plastic-embedded specimen, and an image is formed. TEM enables the resolution and visualization of detail not apparent via light microscopy, even when combined with immunohistochemical analysis. Ultrastructural examination of tissues, cells and microorganisms plays a vital role in diagnostic pathology and biologic research. TEM is used to study the morphology of cells and their organelles, and in the identification and characterization of viruses, bacteria, protozoa and fungi. In this protocol, we present a TEM method for preparing specimens obtained in clinical or research settings, discussing the particular requirements for tissue and cell preparation and analysis, the need for rapid fixation and the possibility of analysis of tissue already fixed in formalin or processed into paraffin blocks. Details of fixation, embedding and how to prepare thin and semi-thin sections, which can be used for analysis complementary to that performed ultimately using TEM, are also described.

Replication of HIV-1 in vivo and in vitro.

A complex relationship exists between HIV and its cellular targets. The lethal effect of HIV on circulating CD4(+) helper T lymphocytes parallels the degree of the infected individual's immunodeficiency and ultimately the transition to AIDS and death. However, as with other members of the Lentivirus family of retroviruses, the ubiquitous, mobile macrophage is also a prime target for HIV infection, and apparently, in most instances, is the initial infected cell, since most people are infected with a CCR5 chemokine-tropic virus. Unlike the lymphocyte, the macrophage is apparently a more stable viral host, capable of a long infected life as an HIV reservoir and a chronic source of infectious virus. Published in vitro studies have indicated that whereas lymphocytes replicate HIV solely on their plasma membrane, macrophages have been envisaged to predominantly replicate HIV within cytoplasmic vacuoles, and thus have been likened to a "Trojan horse," when it comes to the immune system. Recent studies have revealed an ingenious way by which the cultured monocyte-derived macrophage (MDM) replicates HIV and releases it into the medium. The key macrophage organelle appears to be what is alternatively referred to as the "late endosome" (LE) or the "multivesicular body" (MVB), which have a short and a long history, respectively. Proof of the association is that chemically, LE/MVB and their vesicles possess several pathopneumonic membrane markers (e.g., CD63) that are found on released HIV particles. The hypothesis is that HIV usurps this vesicle-forming mechanism and employs it for its own replication. Release of the intravacuolar virus from the cell is hypothesized to occur by a process referred to as exocytosis, resulting from the fusion of virus-laden LE/MVB with the plasma membrane of the macrophage. Interestingly, LE/MVB are also involved in the infection stage of MDM by HIV. Close review of the literature reveals that along with the Golgi, which contributes to the formation of LE/MVB, the MVB was first identified as a site of HIV replication by macrophages many years ago, but the full implication of this observation was not appreciated at the time. As in many other areas of HIV research, what has been totally lacking is an in vivo confirmation of the in vitro phenomenon. Herein, the ultrastructure of HIV interaction with cells in vitro and in vivo is explored. It is shown that while HIV is regularly found in LE/MVB in vitro, it is infrequently the case in vivo. Therefore, the results challenge the "Trojan horse" concept.

Ultrastructure of HIV/AIDS.

Transmission electron microscopy has played a key role in our understanding of the human immunodeficiency virus and the opportunistic infections that accompany HIV disease. This paper describes features of HIV production; HHV-8, the virus that is associated with Kaposi sarcoma; Trachipleistophora anthropophthera, a new disseminating microsporidian; and bacterial enteritis, which causes diarrhea in patients with AIDS.