TY - JOUR
T1 - Formation of intracellular lumina in human prostate carcinoma (DU145) cells, maturation into signet cells, and the cribriform morphology of tumors
AU - Gilloteaux, Jacques
AU - Bhalla, Aneil
AU - Faour, Omar
AU - Jamison, James M.
PY - 2016/7/3
Y1 - 2016/7/3
N2 - The intracellular or intracytoplasmic lumen (IL) is an enigmatic histological structure that occurs in various tumor cells. A reassessment of diverse ILs fine-structure micrographs obtained out of previous studies encompassing the human prostate carcinoma (DU145) cell line and xenotransplanted carcinomas enabled us to propose aspects of ILs development in cancer cells: a combination of altered expressions in intercellular contacts and their cytoskeletal components would favor a disarray of self-apical polarity orientation; those defects, associated with a local, entwined enriched membranous structures growing as microvilli-like formations out of a disrupted endoplasm and trans-Golgi sorting, create ILs in cells’ perikarya. These misplaced intracytoplasmic domains can become enlarged through spaces made between the finger-like structures by accruing membranes of coalescent intracytoplasmic vesicles then adding microvilli and glycocalyx to constitute ILs. Cationic mucins added with or without a progressive or total loss of microvilli and content generate signet or ring cell, while ILs enlarge. Variable build-ups of these cells’ populations in carcinomas result in architectural mix-up of adjacent cells around these voids, misconstrued as new lumen, and establish a “cribriform” tumor pattern that often implies a poor cancer prognosis. Alternatively, cytotoxic changes caused by anticancer pro-oxidant treatment favor membrane alterations and exaggerate the ILs in xenotransplants into intracellular crypts that accompany other tumor degenerative changes.
AB - The intracellular or intracytoplasmic lumen (IL) is an enigmatic histological structure that occurs in various tumor cells. A reassessment of diverse ILs fine-structure micrographs obtained out of previous studies encompassing the human prostate carcinoma (DU145) cell line and xenotransplanted carcinomas enabled us to propose aspects of ILs development in cancer cells: a combination of altered expressions in intercellular contacts and their cytoskeletal components would favor a disarray of self-apical polarity orientation; those defects, associated with a local, entwined enriched membranous structures growing as microvilli-like formations out of a disrupted endoplasm and trans-Golgi sorting, create ILs in cells’ perikarya. These misplaced intracytoplasmic domains can become enlarged through spaces made between the finger-like structures by accruing membranes of coalescent intracytoplasmic vesicles then adding microvilli and glycocalyx to constitute ILs. Cationic mucins added with or without a progressive or total loss of microvilli and content generate signet or ring cell, while ILs enlarge. Variable build-ups of these cells’ populations in carcinomas result in architectural mix-up of adjacent cells around these voids, misconstrued as new lumen, and establish a “cribriform” tumor pattern that often implies a poor cancer prognosis. Alternatively, cytotoxic changes caused by anticancer pro-oxidant treatment favor membrane alterations and exaggerate the ILs in xenotransplants into intracellular crypts that accompany other tumor degenerative changes.
KW - Carcinoma
KW - intracellular lumina
KW - prostate
KW - signet cell cribriform
KW - ultrastructure
UR - http://www.scopus.com/inward/record.url?scp=84962407500&partnerID=8YFLogxK
U2 - 10.3109/01913123.2016.1155684
DO - 10.3109/01913123.2016.1155684
M3 - Article
C2 - 27044781
AN - SCOPUS:84962407500
SN - 0191-3123
VL - 40
SP - 189
EP - 199
JO - Ultrastructural Pathology
JF - Ultrastructural Pathology
IS - 4
ER -