scholarly journals Differences in the cellular composition of small versus large uterine fibroids

Reproduction ◽  
2016 ◽  
Vol 152 (5) ◽  
pp. 467-480 ◽  
Author(s):  
Sarah J Holdsworth-Carson ◽  
Dong Zhao ◽  
Leonie Cann ◽  
Sophie Bittinger ◽  
Cameron J Nowell ◽  
...  
Keyword(s):  
Smooth Muscle ◽  
Smooth Muscle Actin ◽  
Uterine Fibroids ◽  
Nuclear Antigen ◽  
Cellular Composition ◽  
Proliferating Cells ◽  
Cellular Phenotypes ◽  
Proliferating Cell ◽  
Fibroid Growth

Uterine fibroids are clonally derived from a single cell; however, despite being monoclonal, the cellular phenotypes that make up uterine fibroids are heterogeneous consisting of predominantly smooth muscle cells (SMC) and fibroblasts. This raises the question as to when clonal cell differentiation occurs during fibroid development, and does this information provide clues about possible mechanisms regulating the growth process that leads to fibroids of symptom-causing size? This study investigated the differences in the cellular composition of fibroids by immunohistochemistry (IHC). A tissue microarray (n = 21 hysterectomy cases) was used for the investigation of large uterine fibroids and normal myometrium. An investigation of small fibroids (≤ 5mm) used a separate group of samples (n = 7 hysterectomy cases, total ofn = 17 fibroids). A panel of cell phenotypic markers was selected based on our previousin situinvestigations and included aldehyde dehydrogenase 1 (ALDH1A1) and vimentin for different fibroblast sub-populations, smooth muscle actin (SMA) as a marker for SMCs, CD31 for endothelial cells and CD45 for leucocytes. Proliferating cell nuclear antigen (PCNA) was also studied to identify proliferating cells. The cellular composition of small fibroids differs significantly from large fibroids. Small fibroids are more cellular (increased cells/mm2) than large fibroids, have more blood vessels and also have a higher ratio of SMC to fibroblasts than large fibroids. Large fibroids have more cell proliferation (measured by PCNA) and fewer leucocytes (measured by CD45) than adjacent myometrium, whereas small fibroids are less proliferative and have similar number of leucocytes to myometrium. Different cellular composition between fibroids of different sizes may provide important clues as to the mechanisms that drive fibroid growth.

Glomerular Expression of Smooth-Muscle Myosin Heavy-Chain Isoforms in Aminonucleoside Nephrosis in Rats

1995 ◽  
Vol 89 (1) ◽  
pp. 45-52 ◽  
Author(s):  
Tsukasa Nakamura ◽  
Kenjiro Kimura ◽  
Isao Ebihara ◽  
Toshimasa Takahashi ◽  
Yasuhiko Tomino ◽  
...  
Keyword(s):  
Smooth Muscle ◽  
Myosin Heavy Chain ◽  
Heavy Chain ◽  
Proliferating Cell Nuclear Antigen ◽  
Smooth Muscle Actin ◽  
Nuclear Antigen ◽  
Puromycin Aminonucleoside ◽  
Proliferating Cell ◽  
Aminonucleoside Nephrosis ◽  
Puromycin Aminonucleoside Nephrosis

1. We investigated the glomerular expression of three types of myosin heavy-chain isoforms, including S-myosin heavy-chain 40 (SM1), S-myosin heavy-chain 29 (SM2) and FS-myosin heavy-chain 34 (SMemb) in puromycin aminonucleoside nephrosis. 2. There was little change in SM1 and SM2 mRNA levels throughout the experiment. In contrast, glomerular SMemb mRNA increased on days 2 and 4 (before and soon after the onset of proteinuria, respectively), but declined on day 8 (the peak of proteinuria). 3. Histological myosin heavy-chain expression was examined using three antibodies against SM1, SM2 and SMemb. Immunohistochemically, SM1 and SM2 were absent in the glomeruli associated with puromycin aminonucleoside nephrosis until day 20. The SMemb isoform was barely detectable in normal glomeruli, but substantial amounts of SMemb were demonstrated in the glomeruli of rats with puromycin aminonucleoside nephrosis. In the puromycin aminonucleoside-treated rats, the number of SMemb-positive glomerular cells increased on days 2 and 4. 4. We examined whether levels of α-smooth-muscle actin or proliferating cell nuclear antigen correlated with myosin heavy-chain levels in the glomeruli of rats with puromycin aminonucleoside nephrosis. None of the cellular components in the glomeruli was positive for either α-smooth-muscle actin or proliferating cell nuclear antigen in puromycin aminonucleoside nephrosis. 5. Administration of methylprednisolone to puromycin aminonucleoside-treated rats resulted in the rapid disappearance of proteinuria. However, methylprednisolone did not affect SMemb mRNA or immunostaining in the glomeruli of rats with puromycin aminonucleoside nephrosis. 6. These data suggest that SMemb may be a molecular marker for phenotypic change in early glomerular injury, and demonstrate that SMemb regulation differs from that of SM1, SM2, α-smooth-muscle actin and proliferating cell nuclear antigen in the glomeruli of rats with puromycin aminonucleoside nephrosis.

scholarly journals In Situ Analysis of Cellular Proliferation in Canine, Feline and Equine Tumors by Immunohistochemistry: A Comparison of Bromodeoxyuridine, Proliferating Cell Nuclear Antigen, and Interchromatin-Associated Antigen Immunostaining Techniques

1994 ◽  
Vol 6 (4) ◽  
pp. 453-457 ◽  
Author(s):  
Alain Pierre Théon ◽  
Loretta Metzger ◽  
Stephen Griffey
Keyword(s):  
Cell Proliferation ◽  
Proliferating Cell Nuclear Antigen ◽  
Cellular Proliferation ◽  
Nuclear Antigen ◽  
Brdu Incorporation ◽  
Immunohistochemical Detection ◽  
Proliferating Cells ◽  
Proliferating Cell

Cell proliferation in canine, feline, and equine tumors was evaluated using immunohistochemical detection of in vitro 5–bromodeoxyuridine (BrdU) incorporation, proliferating cell nuclear antigen (PCNA), and interchromatin-associated antigen (p105). Ten tumors in each species were analyzed. The tumor proliferative fraction (PF) was defined as the percentage of labeled nuclei for 5,000 tumor nuclei counted. Immunoreactivity was observed with all techniques in all species. A good correlation was observed between the proliferative fractions measured with the BrdU (PFBrdU) and PCNA (PFPCNA) techniques ( rs = 0.523, P = 0.0026). There was no correlation between the PFs measured with the BrdU (PFBrdU) and p105 (PFP105) techniques. Using the median values obtained from the different approaches as cutoff points to define slowly and rapidly proliferating tumors, there was an 80% agreement ( P = 0.009) between PFBrdU and PFPCNA and no agreement between PFBrdU and PFP105 The results of this study indicate that both BrdU and PCNA labeling methods can be used reliably for identifying proliferating cells in animal tumors. In addition, PCNA could be used to replace the BrdU method to assess tumor proliferative fraction because it does not require pretreatment of tissues.

scholarly journals Proliferating cell nuclear antigen acts as a cytoplasmic platform controlling human neutrophil survival

2010 ◽  
Vol 207 (12) ◽  
pp. 2631-2645 ◽  
Author(s):  
Véronique Witko-Sarsat ◽  
Julie Mocek ◽  
Dikra Bouayad ◽  
Nicola Tamassia ◽  
Jean-Antoine Ribeil ◽  
...  
Keyword(s):  
Proliferating Cell Nuclear Antigen ◽  
Molecular Mechanisms ◽  
Kinase Inhibitor ◽  
Nuclear Antigen ◽  
Neutrophil Apoptosis ◽  
Proliferating Cells ◽  
Rna Transfection ◽  
Neutrophil Survival ◽  
Proliferating Cell

Neutrophil apoptosis is a highly regulated process essential for inflammation resolution, the molecular mechanisms of which are only partially elucidated. In this study, we describe a survival pathway controlled by proliferating cell nuclear antigen (PCNA), a nuclear factor involved in DNA replication and repairing of proliferating cells. We show that mature neutrophils, despite their inability to proliferate, express high levels of PCNA exclusively in their cytosol and constitutively associated with procaspases, presumably to prevent their activation. Notably, cytosolic PCNA abundance decreased during apoptosis, and increased during in vitro and in vivo exposure to the survival factor granulocyte colony-stimulating factor (G-CSF). Peptides derived from the cyclin-dependent kinase inhibitor p21, which compete with procaspases to bind PCNA, triggered neutrophil apoptosis thus demonstrating that specific modification of PCNA protein interactions affects neutrophil survival. Furthermore, PCNA overexpression rendered neutrophil-differentiated PLB985 myeloid cells significantly more resistant to TNF-related apoptosis-inducing ligand– or gliotoxin-induced apoptosis. Conversely, a decrease in PCNA expression after PCNA small interfering RNA transfection sensitized these cells to apoptosis. Finally, a mutation in the PCNA interdomain-connecting loop, the binding site for many partners, significantly decreased the PCNA-mediated antiapoptotic effect. These results identify PCNA as a regulator of neutrophil lifespan, thereby highlighting a novel target to potentially modulate pathological inflammation.

scholarly journals Proliferating cells in human eccrine and apocrine sweat glands.

1995 ◽  
Vol 43 (12) ◽  
pp. 1217-1221 ◽  
Author(s):  
Y Morimoto ◽  
K Saga
Keyword(s):  
Proliferating Cell Nuclear Antigen ◽  
Myoepithelial Cells ◽  
Nuclear Antigen ◽  
Sweat Glands ◽  
Secretory Cells ◽  
Proliferating Cells ◽  
Peripheral Cells ◽  
Proliferating Cell ◽  
Eccrine Sweat Glands

Morphological observations of sweat glands showed degenerated debris of secretory cells in the secretory lumen in both apocrine and eccrine sweat glands. This suggested that dead secretory cells of human eccrine and apocrine sweat glands were released into the lumen and replaced by other cells. However, we did not know which type of cells replaced lost secretory cells. Therefore, we studied the proliferating cells in human eccrine and apocrine sweat glands by labeling S-phase cells in vitro with 5-bromo-2'-deoxyuridine (BrdUrd) and by immunostaining proliferation-associated proliferating cell nuclear antigen (PCNA) with anti-PCNA monoclonal antibody. BrdUrd and anti-PCNA antibody labeled a few secretory cells in eccrine and apocrine sweat glands, but neither method labeled myoepithelial cells. Luminal and peripheral cells of the eccrine and apocrine coiled duct were labeled with both BrdUrd and PCNA. However, we could not find any highly proliferative germinative cells in coiled ducts. Our results suggest that lost secretory cells could be replaced by proliferation of secretory cells themselves rather than by proliferation of myoepithelial cells or duct cells.

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