Human Benign Prostatic Hyperplasia Stromal Cells As Inducers and Targets of Chronic Immuno-Mediated Inflammation

Penna, Giuseppe; Fibbi, Benedetta; Amuchastegui, Susana; Cossetti, Chiara; Aquilano, Francesca; Laverny, Gilles; Gacci, Mauro; Crescioli, Clara; Maggi, Mario; Adorini, Luciano

doi:10.4049/jimmunol.0801875

Cited by 159 publications

(176 citation statements)

References 45 publications

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“…Different pathogens are described, including bacterial infections, urine reflux with chemical inflammation, dietary factors, hormones, autoimmune response [21][22][23], and a combination of these factors. As proposed by De Marzo et al [21], all of these mechanisms of chronic epithelial injury may be responsible for a decreased barrier function and facilitate the growth of infectious agents, with a chain reaction that further sustains and stimulates the inflammatory response and increases the prostatic inflammatory infiltrates.…”

Section: Inflammation and Prostatementioning

confidence: 99%

Correlation between benign prostatic hyperplasia and inflammation

Bostanci

Kazzazi²,

Momtahen³

et al. 2013

Current Opinion in Urology

135

113

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Although the pathogenesis of BPH is not yet fully understood and several mechanisms seem to be involved in the development and progression, recent studies strongly suggest that BPH is an immune inflammatory disease. The T-cell activity and associated autoimmune reaction seem to induce epithelial and stromal cell proliferation. Further understanding of the role of inflammation in BPH and clinical detection of this inflammation will expand the understanding of BPH pathogenesis and its histologic and clinical progression, allow risk stratification for patients presenting with BPH-related LUTS, and suggest novel treatment strategies.

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Section: Inflammation and Prostatementioning

confidence: 99%

Correlation between benign prostatic hyperplasia and inflammation

Bostanci

Kazzazi²,

Momtahen³

et al. 2013

Current Opinion in Urology

135

113

View full text Add to dashboard Cite

show abstract

“…Biopsies are taken from the distal leg (DL), 10 cm above the lateral malleolus, and the proximal thigh (PT), 20 cm below the anterior iliac spine 9 . All IENF are labeled using protein gene product 9.5 (PGP), a pan neuronal marker [10][11][12] . At present, it is standard practice to diagnose small fiber neuropathies using IENFD determined by PGP staining with brightfield microscopy 6 .…”

Section: Introductionmentioning

confidence: 99%

Three-dimensional Imaging of Nociceptive Intraepidermal Nerve Fibers in Human Skin Biopsies

Dauch

Lindblad

Hayes

et al. 2013

JoVE

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A punch biopsy of the skin is commonly used to quantify intraepidermal nerve fiber densities (IENFD) for the diagnosis of peripheral polyneuropathy 1,2 . At present, it is common practice to collect 3 mm skin biopsies from the distal leg (DL) and the proximal thigh (PT) for the evaluation of length-dependent polyneuropathies 3 . However, due to the multidirectional nature of IENFs, it is challenging to examine overlapping nerve structures through the analysis of two-dimensional (2D) imaging. Alternatively, three-dimensional (3D) imaging could provide a better solution for this dilemma.In the current report, we present methods for applying 3D imaging to study painful neuropathy (PN). In order to identify IENFs, skin samples are processed for immunofluorescent analysis of protein gene product 9.5 (PGP), a pan neuronal marker. At present, it is standard practice to diagnose small fiber neuropathies using IENFD determined by PGP immunohistochemistry using brightfield microscopy 4 . In the current study, we applied double immunofluorescent analysis to identify total IENFD, using PGP, and nociceptive IENF, through the use of antibodies that recognize tropomyosin-receptor-kinase A (Trk A), the high affinity receptor for nerve growth factor 5 . The advantages of co-staining IENF with PGP and Trk A antibodies benefits the study of PN by clearly staining PGP-positive, nociceptive fibers. These fluorescent signals can be quantified to determine nociceptive IENFD and morphological changes of IENF associated with PN. The fluorescent images are acquired by confocal microscopy and processed for 3D analysis. 3D-imaging provides rotational abilities to further analyze morphological changes associated with PN. Taken together, fluorescent co-staining, confocal imaging, and 3D analysis clearly benefit the study of PN. Video LinkThe video component of this article can be found at

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“…Thus, BPH can be seen as a form of chronic prostatitis, whose pathogenesis may be triggered by infection. Among the proinflammatory cytokines and chemokines produced by the prostatic microenvironment, stromal-derived IL-8 may be considered a key link between chronic inflammation and stromal cell proliferation [97]. The ability of VDR activation to inhibit inflammatory response both in prostatic and urethra smooth muscle cells seems to be related to the downregulation of the RhoA/ROCK signaling [64,73,86].…”

Section: Discussionmentioning

confidence: 99%

“…Prostatic stromal cells appear to play a critical role in the induction of inflammatory responses by activating CD4þ lymphocytes and favoring their differentiation into effector Th1 and Th17 cells [97]. Thus, BPH can be seen as a form of chronic prostatitis, whose pathogenesis may be triggered by infection.…”

Section: Discussionmentioning

confidence: 99%