Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0178874 (
tumor progression
)
40,807
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The distribution of basement membrane type VII collagen was detected immunohistochemically and compared in normal human organs and their neoplastic derivatives using monoclonal antibody LH7.2. In normal tissues, type VII collagen was found to be restricted to the basement membrane surrounding or underlying combined epithelia, such as those lining breast, prostate, and bronchus, which are composed of a basal and luminal cell layer, and stratified epithelia, such as larynx, esophagus, trachea,
vagina
, ectocervix, and epidermis. No type VII collagen was found in the "simple' epithelia lining the major part of the gastrointestinal tract (GI) tract, such as liver, stomach, and intestine, or around blood vessels, muscle, and nerve fibers, which are surrounded, however, by a basement membrane containing type IV collagen and laminin. When tested in benign and malignant local tumors, antibody LH7.2 showed staining patterns partly similar to those observed in the corresponding normal tissues. This resulted in a well-circumscribed positive reaction around ducts in carcinomas in situ of the breast, in benign prostate tumors, in pleomorphic adenomas, and in a negative reaction in tumors of the GI tract. Furthermore type VII collagen was predominantly seen in carcinomas with a squamous differentiation, such as squamous carcinomas of the lung, head and neck, vulva, and
vagina
. These results indicate that the presence of type VII collagen in malignant tumors is correlated with (squamous) differentiation rather than with the origin of the tumor. With
tumor progression
, an increased presence of type VII collagen, as compared with normal urinary bladder, was found in infiltrating transitional cell carcinomas. Thus, although in general invasive and metastatic tumors do not express extensively type VII collagen, exceptions to this rule exist in bladder cancer, squamous carcinomas of the lung, tumors of the head and neck region, female genital tract tumors, and in some adenocarcinomas of the breast.
...
PMID:Distribution patterns of type VII collagen in normal and malignant human tissues. 186 28
The proliferation of squamous cells of the
vagina
and cervix uteri is induced by steroid hormones during the menstrual cycle. However, carcinoma of the cervix cannot be influenced by any hormone therapy. Forty-four different cervical specimens (different days in the menstrual cycle of healthy women and those with dysplastic lesions and carcinomas of the cervix) have been tested for estrogen (ER) and progesterone (PR) receptor protein content by means of immunohistochemistry. The ER content of the squamous epithelium depends upon the menstrual cycle: in the early proliferative phase cells of all layers are negative. In the midphase of proliferation the basal and parabasal layers become positive, and in the secretory phase positive cell nuclei can be found up to the superficial layers. A weak reaction to ER staining is found only in mild dysplastic lesions of the uterine cervix; severe dysplastic forms and invasive carcinomas were all negative. No positive PR was found in any squamous cell tissue. Stroma cells of the uterine cervix showed different straining intensity for ER and PR, regardless of the menstrual cycle. The loss of ER in the neoplastic cell could be an explanation for three clinical experiences: premenopausal patients have no
tumor progression
of the cervix uteri despite normal ovarian function; the duration of survival shows no relation to the receptor status of cervical carcinomas; and antihormonal treatment of cervical carcinomas produces no appreciable therapeutic success.
...
PMID:Immunohistochemical investigations of steroid receptors in normal and neoplastic squamous epithelium of the uterine cervix. 259 74
The causal role of human papillomavirus (HPV) in all cancers of the uterine cervix has been firmly established biologically and epidemiologically. Most cancers of both the vulva and the
vagina
are also induced by HPV. Papillomaviruses are perfectly adapted to their natural host tissue, the differentiating epithelial cell of skin or mucosae, and exploit the cellular machinery for their own purposes. The infectious cycle is initiated once the infectious particles reach the basal layer of the epithelium, where they bind to and enter the cells. The critical molecules in the process of virus replication are the viral proteins E6 and E7, which interact with a number of cellular proteins. In experimental system these interactions have been shown to induce proliferation and eventually immortalization and malignant transformation of cells. Binding of E7 to pRb activates the E2F transcription factor, which then triggers the expression of proteins necessary for DNA replication. Unscheduled S-phase would normally lead to apoptosis by the action of p53. However, in HPV-infected cells, this process is counteracted by the viral E6 protein, which targets p53 for proteolytic degradation. Besides blocking p53 function in regulation of apoptosis, high-risk HPV proteins interact with both extrinsic and intrinsic apoptotic pathways. As an aberration of virus infection, constant activity of the viral proteins E6 and E7 leads to increasing genomic instability, accumulation of oncogene mutations, further loss of cell-growth control and ultimately cancer. The immune system uses innate and adaptive immunity to recognize and combat foreign agents that invade the body, but these methods are sometimes ineffective against human papillomavirus. HPV has several mechanisms for avoiding the immune system. Furthermore, HPV infections disrupt cytokine expression with the E6 and E7 oncoproteins, particularly targeting the expression of interferon genes. Approximately 10% of individuals develop a persistent infection, and it is this cohort who is at risk of
cancer progression
, with the development of high-grade precursor lesions and eventually invasive carcinoma.
...
PMID:Human papillomavirus-related diseases of the female lower genital tract: oncogenic aspects and molecular interaction. 2514 23
Small cell carcinoma of the
vagina
is rare, so rare in fact that the total number reported in English-language journals is less than 30. Due to this extremely low incidence, no specific treatment guidelines have been established, and most of what is clinically known is derived from a handful of single case reports. However, as befitting its highly aggressive histologic features, which are reminiscent of small cell lung cancer (SCLC), first-line treatment is modeled after SCLC. Herein is reported the case of a 51-year-old African-American patient with metastatic biopsy-proven small cell carcinoma of the vagina that progressed through multiple therapies: first-line cisplatin and etoposide (making it platinum-resistant) and radiotherapy, followed by the tumor macrophage-stimulating agent RRx-001 in a clinical trial called QUADRUPLE THREAT, which per protocol preceded a mandated rechallenge with cisplatin and etoposide. RECIST v.1.1
tumor progression
on both RRx-001 and cisplatin/etoposide was accompanied by central necrosis in several of the enlarged lymph nodes and hepatic metastases, which may have been evidence of pseudoprogression, accounting for her ongoing longer-than-expected survival, since the necrotic tissue may have primed the activity of the PD-1 inhibitor. The lack of response to RRx-001 is hypothesized to have correlated with sparse tumor macrophage infiltration, seen on pre- and post-treatment biopsies, since the mechanism of action of RRx-001 relates to stimulation of tumor-associated macrophages.
...
PMID:RRx-001 Priming of PD-1 Inhibition in the Treatment of Small Cell Carcinoma of the Vagina: A Rare Gynecological Tumor. 2851 10
Human papilloma virus (HPV) affects predominantly the genital area, which includes
vagina
, cervix, penis, vulva scrotum, rectum and anus. Among 100 types of HPV, 14 types are considered to cause the risky cancer. The gene HPV-16 E7 is responsible for the development of cancer with the infected women. Earlier identification of this gene sequence avoids the
cancer progression
. The targeted HPV-16 E7 sequence was sandwiched by capture and reporter sequences on the carbodiimidazole-modified interdigitated electrode (IDE) surface. Target sequence at 100 f. was paired to the capture sequence immobilized on IDE sensing surface. To this surface, different concentrations of reporter sequence with and without gold rod (GNR) were evaluated. In both cases the detections were attained 1 aM by the reporter sequence pairing and with GNR increments in current were found. This enhancement was found to be 1000 folds, considering the condition was revealed in the absence of reporter. This sandwich detection strategy of capture-target-reporter sequences for HPV-16 detection on the IDE sensing surface helps to diagnose the association of cervical cancer.
...
PMID:Target DNA detection of human papilloma virus-16 E7 gene by capture-target-reporter sandwich on interdigitated electrode sensor. 3149 51
