SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2023473690> ?p ?o ?g. }

Showing items 1 to 100 of ±147 with 100 items per page.

W2023473690 endingPage "96" @default.
W2023473690 startingPage "86" @default.
W2023473690 abstract "An ongoing debate surrounds the existence of stem cells in the adult endowed with capacity to differentiate into multiple lineages. We examined the possibility that adult bone marrow cells participate in recovery from chemical diabetes through neogenesis of insulin-producing cells. Small-sized cells negative for lineage markers derived by counterflow centrifugal elutriation from the bone marrow were transplanted into mice made diabetic with streptozotocin and sublethal irradiation. These cells homed efficiently to the injured islets and contributed to tissue revascularization. Islet-homed CD45-negative donor cells identified by sex chromosomes downregulated GFP, expressed PDX-1 and proinsulin, and converted the hormone precursor to insulin. An estimated 7.6% contribution of newly formed insulin-producing cells to islet cellularity increased serum insulin and stabilized glycemic control starting at 5 weeks post-transplant and persisting for 20 weeks. Newly differentiated cells displayed normal diploid genotype and there was no evidence of fusion between the grafted stem cells or their myeloid progeny and injured β-cells. Considering the extensive functional incorporation of insulin-producing donor cells in the injured islets, we conclude that the adult bone marrow contains a subset of small cells endowed with plastic developmental capacity." @default.
W2023473690 created "2016-06-24" @default.
W2023473690 creator A5006697408 @default.
W2023473690 creator A5018866586 @default.
W2023473690 creator A5042076645 @default.
W2023473690 creator A5043164298 @default.
W2023473690 creator A5061768924 @default.
W2023473690 creator A5073952946 @default.
W2023473690 date "2012-01-01" @default.
W2023473690 modified "2023-10-18" @default.
W2023473690 title "Elutriated Stem Cells Derived from the Adult Bone Marrow Differentiate into Insulin-Producing Cells In Vivo and Reverse Chemical Diabetes" @default.
W2023473690 cites W106229536 @default.
W2023473690 cites W1518831632 @default.
W2023473690 cites W1535560730 @default.
W2023473690 cites W1966185640 @default.
W2023473690 cites W1970954153 @default.
W2023473690 cites W1973278012 @default.
W2023473690 cites W1975277850 @default.
W2023473690 cites W1976221714 @default.
W2023473690 cites W1981946124 @default.
W2023473690 cites W1982558669 @default.
W2023473690 cites W1991374176 @default.
W2023473690 cites W1993902386 @default.
W2023473690 cites W1994410316 @default.
W2023473690 cites W1995489142 @default.
W2023473690 cites W1997470313 @default.
W2023473690 cites W1997801265 @default.
W2023473690 cites W2001013549 @default.
W2023473690 cites W2001675896 @default.
W2023473690 cites W2001862755 @default.
W2023473690 cites W2005688198 @default.
W2023473690 cites W2008477650 @default.
W2023473690 cites W2009804949 @default.
W2023473690 cites W2013568009 @default.
W2023473690 cites W2016823790 @default.
W2023473690 cites W2017496728 @default.
W2023473690 cites W2017704177 @default.
W2023473690 cites W2018572535 @default.
W2023473690 cites W2020962857 @default.
W2023473690 cites W2024307514 @default.
W2023473690 cites W2025784989 @default.
W2023473690 cites W2025875442 @default.
W2023473690 cites W2028338826 @default.
W2023473690 cites W2032847865 @default.
W2023473690 cites W2040158161 @default.
W2023473690 cites W2045180781 @default.
W2023473690 cites W2048258494 @default.
W2023473690 cites W2052721366 @default.
W2023473690 cites W2071557003 @default.
W2023473690 cites W2075186505 @default.
W2023473690 cites W2085002247 @default.
W2023473690 cites W2096091265 @default.
W2023473690 cites W2117481455 @default.
W2023473690 cites W2123158227 @default.
W2023473690 cites W2126217894 @default.
W2023473690 cites W2126780067 @default.
W2023473690 cites W2146383332 @default.
W2023473690 cites W2155117386 @default.
W2023473690 cites W2158232697 @default.
W2023473690 cites W2158849296 @default.
W2023473690 cites W2159079511 @default.
W2023473690 cites W2166454482 @default.
W2023473690 cites W2167520347 @default.
W2023473690 cites W2169071674 @default.
W2023473690 cites W2225124744 @default.
W2023473690 cites W2323566388 @default.
W2023473690 cites W2330212410 @default.
W2023473690 cites W4232574208 @default.
W2023473690 cites W4234360080 @default.
W2023473690 cites W4238819996 @default.
W2023473690 cites W4247589583 @default.
W2023473690 doi "https://doi.org/10.1089/scd.2011.0057" @default.
W2023473690 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/21457125" @default.
W2023473690 hasPublicationYear "2012" @default.
W2023473690 type Work @default.
W2023473690 sameAs 2023473690 @default.
W2023473690 citedByCount "28" @default.
W2023473690 countsByYear W20234736902012 @default.
W2023473690 countsByYear W20234736902013 @default.
W2023473690 countsByYear W20234736902014 @default.
W2023473690 countsByYear W20234736902015 @default.
W2023473690 countsByYear W20234736902016 @default.
W2023473690 countsByYear W20234736902017 @default.
W2023473690 countsByYear W20234736902019 @default.
W2023473690 countsByYear W20234736902020 @default.
W2023473690 countsByYear W20234736902021 @default.
W2023473690 countsByYear W20234736902022 @default.
W2023473690 countsByYear W20234736902023 @default.
W2023473690 crossrefType "journal-article" @default.
W2023473690 hasAuthorship W2023473690A5006697408 @default.
W2023473690 hasAuthorship W2023473690A5018866586 @default.
W2023473690 hasAuthorship W2023473690A5042076645 @default.
W2023473690 hasAuthorship W2023473690A5043164298 @default.
W2023473690 hasAuthorship W2023473690A5061768924 @default.
W2023473690 hasAuthorship W2023473690A5073952946 @default.
W2023473690 hasConcept C123012128 @default.
W2023473690 hasConcept C126322002 @default.
W2023473690 hasConcept C134018914 @default.