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Target Concepts:
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Query: EC:3.2.1.23 (
beta-galactosidase
)
14,648
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Polysphondylium pallidum cells were transformed with a construct containing the Dictyostelium discoideum ecmA promoter fused to a lacZ reporter gene. Two stably transformed lines, one in which
beta-galactosidase
(beta-gal) is expressed in apical cells of the fruiting body (
p63
/2.1), and one in which it is expressed in basal cells (
p63
/D), have enabled us to infer how cells move during aggregation and culmination. Several types of cell movement proposed to occur during slime mold culmination, such as random cell mixing and global cell circulation, can be ruled out on the basis of our observations. Cells of the two transformant lines express beta-gal very early in development. In both cases, stained cells are randomly scattered in a starving population. By mid to late aggregation, characteristic spatial patterns emerge. Marked cells of
p63
/2.1 are found predominantly at tips of tight aggregates; those of
p63
/D accumulate at the periphery. These patterns are conserved throughout culmination, showing that marked cells maintain their relative positions within the multicellular mass following aggregation. Neither the apical nor the basal pattern appears to be regulated within the primary sorogen by de novo gene expression or by cell sorting as whorls are formed. However, marked cells within a whorl re-establish the original pattern in secondary sorogens. This must be achieved by cell migration, since beta-gal is not re-expressed.
...
PMID:Establishment and maintenance of stable spatial patterns in lacZ fusion transformants of Polysphondylium pallidum. 163 92
Molecular mechanisms underlying prostate and urothelial development remain unclear. This situation presents major limitations in identifying the cell type(s) and molecular events involved in the development of prostate and bladder cancer. It has been shown that mice lacking the basal cell marker
p63
present several epithelial defects, including epidermis and prostate buds agenesis and urothelial abnormalities. Here, we use the
p63
-/- mouse as a tool to define cell lineages in the prostate epithelium and urothelium. By complementing
p63
-/- blastocysts with p63+/+
beta-galactosidase
(beta-gal)-positive ES cells, we show that secretory cells of the prostate originate from
p63
-positive basal progenitor cells. Importantly, our urogenital sinus transplantation studies demonstrate that
p63
prevents intestinal differentiation of the urogenital sinus endoderm and is therefore required to maintain commitment to the prostate cell lineage. Finally, in contrast with the prostate findings, analysis of the urothelium from rescued
p63
-/- chimeras shows that umbrella (superficial) cells can develop and be maintained independently from
p63
-positive basal and intermediate cells.
...
PMID:p63 regulates commitment to the prostate cell lineage. 1605 6
p63
is critical for squamous development and exists as multiple isotypes of two subclasses, TA and DeltaN. DeltaNp63 isotypes can antagonize transcription by TAp63 and p53, and are highly expressed in squamous cell cancers. Using mouse keratinocytes as a biological model of squamous epithelium, we show that multiple
p63
isotypes, DeltaN- and TA-containing, are expressed and differentially modulated during in vitro murine keratinocyte differentiation. DeltaNp63alpha declines with Ca2+-induced differentiation, while a smaller DeltaN-form, DeltaNp63s, persists, suggesting unique functions of the two DeltaN-forms. To investigate the impact of dysregulated
p63
expression that is observed in cancers and to define the biological contribution of the different domains of the
p63
isotypes, DeltaNp63alpha, DeltaNp63p40, TAp63alpha, TAp63gamma or
beta-galactosidase
were overexpressed in primary murine keratinocytes. Microarray, RT-PCR and western blot analyses revealed that overexpression of DeltaNp63p40, which lacks the entire alpha-tail present in DeltaNp63alpha, permits expression of a full panel of differentiation markers. This is in contrast to overexpression of the full-length DeltaNp63alpha, which blocks induction of keratin 10, loricrin and filaggrin. These findings support a role for the alpha-tail of DeltaNp63alpha in blocking differentiation-specific gene expression. Overexpression of either TAp63 isotype permits keratin 10 and loricrin expression, thus the alpha-terminus requires the cooperation of the DeltaN domain in blocking early differentiation. However, both TA isotypes block filaggrin induction. The DeltaN-terminus is sufficient to maintain keratinocytes in a proliferative state, as both DeltaN forms block Ca2+-mediated p21WAF1 induction and S-phase arrest, while sustaining elevated PCNA levels. No alteration in cell cycle regulation was observed in keratinocytes overexpressing TAp63alpha or TAp63gamma. Clarifying the functional distinctions between
p63
isotypes and domains will help to elucidate how their dysregulation impacts tumor biology and may suggest novel therapeutic strategies for modulating behavior of tumor cells with altered expression of p53 family members.
...
PMID:Unique domain functions of p63 isotypes that differentially regulate distinct aspects of epidermal homeostasis. 1608 16
