Pilomatrixoma
Polydipsia
Catenins
Cadherins
alpha Catenin
beta Catenin
Encyclopedias as Topic
gamma Catenin
Pilomatricoma--a reprospective analysis of 18 cases. (1/38)
Pilomatricoma (calcifying epithelioma of Malherebe) is an uncommon skin tumour that occurs predominantly in young people. No studies are available from the Indian subcontinent on pilomatricoma. We analyzed records of 18 cases of pilomatricoma seen during 5 years period (1995-99). There were 16 females and 2 males and their age ranged from 5 to 60 years. All patients had solitary lesions in 10 out of 18 cases (55.5%), the tumour was located in head and neck region including 5 cases (27%) where it involved orbital margin and eye-brow. In only 2 out of 18 cases, a clinical diagnosis of pilomatricoma was suggested. In addition to the secondary changes described in previous studies, we observed additional changes like myxoid change, oedema fluid and necrosis with karyorrhectic debris in few of these tumours. Making a clinical diagnosis of pilomatricoma can be difficult. The final confirmation is by histopathological examination only. (+info)Differential expression of cyclin D1 in the human hair follicle. (2/38)
The proliferation of keratinocytes in the hair follicle varies from slowly cycling, intermittently proliferating stem cells in the bulge to rapidly proliferating, transient cells in the bulb. To better understand the biological differences between these two compartments, we sought to identify differentially expressed genes using cDNA macroarray analysis. Cyclin D1 was one of 13 genes increased in the bulge compared to the bulb, and its differential expression was corroborated by quantitative real-time polymerase chain reaction (PCR) on the original samples. Using immunohistochemical staining, laser-capture microdissection (LCM) and quantitative real-time PCR, we localized cyclin D1 to the suprabasal cells of the telogen bulge and anagen outer root sheath (ORS). Surprisingly, cyclin D1, D2, and D3 were not detectable by immunohistochemistry in the rapidly proliferating hair-producing cells of the anagen bulb (matrix cells), while these cells were strongly positive for Ki-67 and retinoblastoma protein. In contrast, pilomatricoma, a tumor thought to be derived from matrix cells, was positive for cyclin D1, D2, and D3. Our results suggest that cyclin D1 may mediate the proliferation of stem cells in the bulge to more differentiated transient amplifying cells in the suprabasal ORS. In contrast, non-cyclin D1-proteins appear to control cell division of the highly proliferative bulb matrix cells. This non-cyclin D1-mediated proliferation may provide a protective mechanism against tumorigenesis, which is overridden in pilomatricomas. Our data also demonstrate that the combination of DNA macroarray, LCM and quantitative real-time PCR is a powerful approach for the study of gene expression in defined cell populations with limited starting material. (+info)beta-Catenin is expressed aberrantly in tumors expressing shadow cells. Pilomatricoma, craniopharyngioma, and calcifying odontogenic cyst. (3/38)
We studied the beta-catenin immunohistochemical profile in tumors expressing shadow cells: pilomatricoma, 10 cases; calcifying odontogenic cyst, 6 cases; and craniopharyngioma, 9 cases. There was strong membranous, cytoplasmic, and nuclear staining of the immature basaloid cells in all of these tumors. Shadow cells were negative in all tumors. It has been documented that rising levels of free beta-catenin drive the formation of complexes with T-cell factor/lymphoid enhancer factor (TCF-Lef) and up-regulate the wingless-Wnt cell-cell signals. The end result is an abnormality of beta-catenin degradation and, thus, a buildup of free beta-catenin in the cytoplasm and/or nucleus, resulting in the stimulation of cellular proliferation and/or inhibition of cell death. beta-Catenin seems to have an important role in the oncogenesis of these tumors. The similar pattern of keratinization in these tumors and the similar pattern of beta-catenin immunoreactivity in the cytoplasm and the nucleus are important findings. It seems that the activation of a common cellular pathway, namely Wnt-beta-catenin-TCF-Lef, has a role in the pathogenesis of these tumors. The latter could be related to their shared method of keratinization or shared dysfunction of the cellular adhesion complex leading to tumorigenesis. (+info)Pilomatricoma of the auricular region: case report. (4/38)
Pilomatricomas are relatively rare tumors of ectodermal origin from the outer root sheath cell of the hair follicle. They are usually asymptomatic, solitary, firm or hard, freely mobile, dermal or subcutaneous nodules. The purpose of this article is to present a case that illustrates the diagnostic difficulty encountered by oral surgeons and pathologists and to review the literature regarding pilomatricomas of the auricular region. (+info)Type II collagen accumulation in overlying dermo-epidermal junction of pilomatricoma is mediated by bone morphogenetic protein 2 and 4. (5/38)
Pilomatricoma consists of the cells differentiating towards hair matrix cells. Immunohistochemical study revealed the deposition of type II collagen in the overlying dermo-epidermal junction (DEJ) of this benign tumor. Proalpha(1)(II) mRNA was detected by RT-PCR in the overlying epidermal layer but not in the dermal layer prepared from the lesional skin of pilomatricoma. The neutral salt-soluble proteins extracted from the tumor of pilomatricoma induced proalpha(1)(II) mRNA in the cultured human keratinocytes but not in the cultured dermal fibroblasts. Bone morphogenetic protein 2 or 4 (BMP2 or 4) was immunohistochemically detected in some shadow cells of pilomatricoma. Recombinant BMP2 and BMP4 were found to induce proalpha(1)(II) mRNA concentration dependently in the cultured human keratinocytes but not in the cultured fibroblasts. Proalpha(1)(II) mRNA induced by BMP2 and in cultured keratinocytes contained exon 2, indicating that the mRNA species is non-chondrogenic type IIA form. The results strongly suggest that BMP2 or 4 expressed in pilomatricoma is responsible for the induction of proalpha(1)(II) collagen mRNA in the overlying epidermal cells resulting in the deposition of type II collagen in the DEJ. When human keratinocytes were cultured on type II collagen substratum in vitro, the cell proliferation was accelerated at the early period of culture but was inhibited at the late period of culture, whereas the cell proliferation was persistently accelerated by type I or IV collagen substratum. Type II collagen deposition in the DEJ may potentially exert profound effects on keratinocyte proliferation and differentiation. (+info)On the regulation of hair keratin expression: lessons from studies in pilomatricomas. (6/38)
Human hair follicles exhibit a complex pattern of sequential hair keratin expression in the hair matrix, cuticle, and cortex. In pilomatricomas, that is, benign skin tumors thought to arise from germinative matrix cells of the hair follicle and retaining morphological signs of cortical differentiation, this differential hair keratin pattern has been shown to be faithfully preserved in the lower and upper transitional cell compartments of the tumors. Here we show that also the co-expression of hair keratin hHa5 with its regulatory nuclear homeoprotein HOXC13 in matrix cells of the hair follicle is maintained in lower transitional cells of pilomatricomas. In contrast, the nuclear co-expression of LEF1 and beta-catenin, which in the hair follicle has been postulated to initiate cortex cell differentiation through the induction of hair keratin hHa1 expression (Merill et al, Genes Dev 15:1688-1705, 2001), is not preserved in upper transitional cells of pilomatricomas. Although these cells correctly express hHa1, they are completely devoid of LEF1 and nuclear LEF1/beta-catenin co-expression is shifted to a subpopulation of hair keratin-free basaloid cells of the tumors. These data imply that unlike the normal hair follicle, cortical differentiation in pilomatricomas is not under the control of the canonical Wnt signaling pathway. (+info)Expression of hard alpha-keratins in pilomatrixoma, craniopharyngioma, and calcifying odontogenic cyst. (7/38)
To examine the properties of shadow and ghost cells, 3 kinds of antibodies were raised against human hair proteins and their immunoreactivity was examined in tumors expressing those cells: pilomatrixoma, 14 cases; craniopharyngioma, 17 cases; and calcifying odontogenic cyst (COC), 14 cases. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis and Western blot analyses demonstrated that 2 polyclonal antibodies, PA-HP1 and PA-HP 2, reacted strongly with type I acidic and type II neutral/basic hard alpha-keratins. The other monoclonal antibody, MA-HP1, reacted with type II neutral/basic hard alpha-keratins. Immunohistochemical examination revealed that all 3 antibodies reacted only with the hair shaft in sections of normal skin and dermoid cyst. In all pilomatrixoma cases, 3 antibodies reacted with the cytoplasm of transitional and shadow cells but not with that of basophilic cells. Positive reactions were found only in shadow cells of all 13 adamantinomatous craniopharyngiomas. In all COCs, the antibodies reacted only with ghost cells, not with other epithelial components. Immunoreactivity for phosphothreonine, detected in hard alpha-keratins, also was found in transitional, shadow, and ghost cells. The appearance of shadow or ghost cells might represent differentiation into hair in these 3 kinds of tumors. (+info)Papillary endothelial hyperplasia and dilated lymphatic vessels in bullous pilomatricoma. (8/38)
This is a report of papillary endothelial hyperplasia in a 9-year-old girl with a pilomatricoma showing bullous appearance. Histologically, papillary proliferation of endothelial cells was found within dilated lymphatic endothelium-lined vascular channels overlying a pilomatricoma. The endothelial cells covering the papillae were of a lymphatic endothelial cell nature proved by immunohistochemistry and electron microscopy. Abundant fibrous long-spacing collagen was observed in the connective tissue and fibroblasts within papillae. (+info)Pilomatrixoma is a benign skin tumor that originates from the hair follicle's matrix. It is also known as calcifying epithelioma of Malherbe. This slow-growing tumor typically appears as a hard, mobile, small nodule, often on the head or neck region. Pilomatrixomas are usually painless but can become inflamed or infected. They are more common in children and young adults and are slightly more prevalent in females than males. Histologically, pilomatrixoma is characterized by the presence of shadow cells, basaloid cells, and calcifications. Surgical excision is the standard treatment for this condition.
Hair diseases is a broad term that refers to various medical conditions affecting the hair shaft, follicle, or scalp. These conditions can be categorized into several types, including:
1. Hair shaft abnormalities: These are conditions that affect the structure and growth of the hair shaft. Examples include trichorrhexis nodosa, where the hair becomes weak and breaks easily, and pili torti, where the hair shaft is twisted and appears sparse and fragile.
2. Hair follicle disorders: These are conditions that affect the hair follicles, leading to hair loss or abnormal growth patterns. Examples include alopecia areata, an autoimmune disorder that causes patchy hair loss, and androgenetic alopecia, a genetic condition that leads to pattern baldness in both men and women.
3. Scalp disorders: These are conditions that affect the scalp, leading to symptoms such as itching, redness, scaling, or pain. Examples include seborrheic dermatitis, psoriasis, and tinea capitis (ringworm of the scalp).
4. Hair cycle abnormalities: These are conditions that affect the normal growth cycle of the hair, leading to excessive shedding or thinning. Examples include telogen effluvium, where a large number of hairs enter the resting phase and fall out, and anagen effluvium, which is typically caused by chemotherapy or radiation therapy.
5. Infectious diseases: Hair follicles can become infected with various bacteria, viruses, or fungi, leading to conditions such as folliculitis, furunculosis, and kerion.
6. Genetic disorders: Some genetic disorders can affect the hair, such as Menkes syndrome, which is a rare inherited disorder that affects copper metabolism and leads to kinky, sparse, and brittle hair.
Proper diagnosis and treatment of hair diseases require consultation with a healthcare professional, often a dermatologist or a trichologist who specializes in hair and scalp disorders.
Polydipsia is a medical term that describes excessive thirst or an abnormally increased desire to drink fluids. It is often associated with conditions that cause increased fluid loss, such as diabetes insipidus and diabetes mellitus, as well as certain psychiatric disorders that can lead to excessive water intake. Polydipsia should not be confused with simple dehydration, where the body's overall water content is reduced due to inadequate fluid intake or excessive fluid loss. Instead, polydipsia refers to a persistent and strong drive to drink fluids, even when the body is adequately hydrated. Prolonged polydipsia can lead to complications such as hyponatremia (low sodium levels in the blood) and may indicate an underlying medical issue that requires further evaluation and treatment.
Skin neoplasms refer to abnormal growths or tumors in the skin that can be benign (non-cancerous) or malignant (cancerous). They result from uncontrolled multiplication of skin cells, which can form various types of lesions. These growths may appear as lumps, bumps, sores, patches, or discolored areas on the skin.
Benign skin neoplasms include conditions such as moles, warts, and seborrheic keratoses, while malignant skin neoplasms are primarily classified into melanoma, squamous cell carcinoma, and basal cell carcinoma. These three types of cancerous skin growths are collectively known as non-melanoma skin cancers (NMSCs). Melanoma is the most aggressive and dangerous form of skin cancer, while NMSCs tend to be less invasive but more common.
It's essential to monitor any changes in existing skin lesions or the appearance of new growths and consult a healthcare professional for proper evaluation and treatment if needed.
Catenins are a type of protein that play a crucial role in cell adhesion and signal transduction. They are named for their ability to link together (or "catenate") proteins called cadherins, which are important for the formation of tight junctions between cells. Catenins help to anchor cadherins to the cytoskeleton, providing structural support and stability to tissues.
There are several different types of catenins, including alpha-catenin, beta-catenin, gamma-catenin (also called plakoglobin), and delta-catenin. Alpha-catenin links cadherins to the actin cytoskeleton, while beta-catenin and gamma-catenin can also interact with transcription factors in the nucleus to regulate gene expression.
Mutations in catenin genes have been associated with various human diseases, including cancer. For example, abnormal activation of the Wnt signaling pathway, which involves beta-catenin, has been implicated in several types of cancer. Additionally, mutations in alpha-E-catenin, a type of alpha-catenin found in epithelial cells, have been linked to colorectal cancer.
Cadherins are a type of cell adhesion molecule that play a crucial role in the development and maintenance of intercellular junctions. They are transmembrane proteins that mediate calcium-dependent homophilic binding between adjacent cells, meaning that they bind to identical cadherin molecules on neighboring cells.
There are several types of cadherins, including classical cadherins, desmosomal cadherins, and protocadherins, each with distinct functions and localization in tissues. Classical cadherins, also known as type I cadherins, are the most well-studied and are essential for the formation of adherens junctions, which help to maintain cell-to-cell contact and tissue architecture.
Desmosomal cadherins, on the other hand, are critical for the formation and maintenance of desmosomes, which are specialized intercellular junctions that provide mechanical strength and stability to tissues. Protocadherins are a diverse family of cadherin-related proteins that have been implicated in various developmental processes, including neuronal connectivity and tissue patterning.
Mutations in cadherin genes have been associated with several human diseases, including cancer, neurological disorders, and heart defects. Therefore, understanding the structure, function, and regulation of cadherins is essential for elucidating their roles in health and disease.
Alpha-catenin is a protein that plays a crucial role in cell adhesion and the maintenance of the cytoskeleton. It is a component of the cadherin-catenin complex, which is responsible for forming tight junctions between cells, known as adherens junctions. Alpha-catenin binds to beta-catenin, which in turn interacts with cadherins, transmembrane proteins that mediate cell-cell adhesion. This interaction helps to link the actin cytoskeleton to the cadherin-catenin complex, providing strength and stability to adherens junctions. Additionally, alpha-catenin has been implicated in various signaling pathways related to cell growth, differentiation, and migration.
Beta-catenin is a protein that plays a crucial role in gene transcription and cell-cell adhesion. It is a key component of the Wnt signaling pathway, which regulates various processes such as cell proliferation, differentiation, and migration during embryonic development and tissue homeostasis in adults.
In the absence of Wnt signals, beta-catenin forms a complex with other proteins, including adenomatous polyposis coli (APC) and axin, which targets it for degradation by the proteasome. When Wnt ligands bind to their receptors, this complex is disrupted, allowing beta-catenin to accumulate in the cytoplasm and translocate to the nucleus. In the nucleus, beta-catenin interacts with T cell factor/lymphoid enhancer-binding factor (TCF/LEF) transcription factors to activate the transcription of target genes involved in cell fate determination, survival, and proliferation.
Mutations in the genes encoding components of the Wnt signaling pathway, including beta-catenin, have been implicated in various human diseases, such as cancer, developmental disorders, and degenerative conditions.
An encyclopedia is a comprehensive reference work containing articles on various topics, usually arranged in alphabetical order. In the context of medicine, a medical encyclopedia is a collection of articles that provide information about a wide range of medical topics, including diseases and conditions, treatments, tests, procedures, and anatomy and physiology. Medical encyclopedias may be published in print or electronic formats and are often used as a starting point for researching medical topics. They can provide reliable and accurate information on medical subjects, making them useful resources for healthcare professionals, students, and patients alike. Some well-known examples of medical encyclopedias include the Merck Manual and the Stedman's Medical Dictionary.
Gamma-catenin, also known as plakoglobin, is a protein that is involved in cell adhesion and the regulation of gene expression. It is a member of the catenin family, which includes beta-catenin and alpha-catenin. Gamma-catenin is found at adherens junctions, where it interacts with cadherins to help maintain cell-cell adhesion. It also plays a role in the Wnt signaling pathway, where it can bind to TCF/LEF transcription factors and regulate the expression of target genes. Mutations in the gene that encodes gamma-catenin have been associated with several types of cancer, including colon cancer and melanoma.
Desmoplakins are important proteins that play a crucial role in the structural integrity and function of certain types of cell-to-cell junctions called desmosomes. Desmosomes are specialized structures that connect adjacent cells in tissues that undergo significant mechanical stress, such as the skin, heart, and gut.
Desmoplakins are large proteins that are composed of several domains, including a plakin domain, which interacts with other desmosomal components, and a spectrin-like repeat domain, which binds to intermediate filaments. By linking desmosomes to the intermediate filament network, desmoplakins help to provide mechanical strength and stability to tissues.
Mutations in the genes that encode desmoplakins have been associated with several human genetic disorders, including arrhythmogenic right ventricular cardiomyopathy (ARVC), a heart condition characterized by abnormal heart rhythms and structural changes in the heart muscle, and epidermolysis bullosa simplex (EBS), a skin disorder characterized by blistering and fragility of the skin.