Arison to HCs, only CA19-9 and MIC-1 were significantly elevated in CP patients compared to HCs. Log transformed value of NGAL was more Autophagy specific than CA19-9 in distinguishing stage 3/4 PC patients from CP cases while that of MIC-1 was more sensitive (stage 1/2 PC from HCs) or specific (stage 1/2 vs CP) than CA19-9 in a subgroup specific manner. CA19-9 performed better in distinguishing PC form CP patients or HCs at a higher cut-off value than the commonly employed cut-off of 37 U/ml. A combination of MIC-1 and CA19-9 was better than the latter alone in distinguishingDiagnosis Efficacy of NGAL, MIC-1 and CA19-resectable PC from CP patients while addition of NGAL improved the ability of CA19-9 to distinguish stage 3/4 PC cases from HCs.Author ContributionsConceived and designed the experiments: SK SC KM MJB ARS SKB. Performed the experiments: SK KM MJ. Analyzed the data: LMS SK MJB KM SKB SKS. Contributed reagents/materials/analysis tools: SG REB ARS UAW. Wrote the paper: SK SC MJB SKB SKS.
Eukaryotic cells require endocytosis for uptake of extra-cellular substances and internalization of plasma Epigenetics membrane proteins for transport to endosomes [1]. Endocytosis regulates and is involved in many important processes, including several signaling pathways [2,3,4]. Plants require endocytosis for important processes including development [5] and defense against microorganisms [6,7]. Studies conducted in plant systems have elucidated possible functionalities of plant endocytic compartments and the flow of endocytosed material throughout plant cells [7,8,9,10,11,12,13,14]. Endocytosis depends on a large number of protein-protein interactions mediated by specific modules. One such module is the EH (Eps15 homology) domain first identified in Eps15 [15,16]. The EH domain structure generally consists of two EF-hands and a helix-loop-helix structure that binds calcium (or a pseudo EFhand), connected by an anti-parallel beta-sheet [17,18,19]. Many EH-containing proteins were identified in different species, among them EHD1-4 (EH domain containing proteins), Eps15 and Intersectin 1? [20,21,22,23]. Four EHD orthologs are known in vertebrates [24] and two in 23727046 plants [25]. All mammalian EHDs share a similar structure: An Nterminal domain with a nucleotide binding motif (P-loop), DxxG and NKxD, a central coiled coil region and a C-terminal EH domain containing an EF Ca2+ binding motif. C-terminal EH domain containing proteins are regulators of endocytic trafficking,and have been shown to associate with Rab protein effectors [24,26]. Despite their high homology (70?0 ) the mammalian EHDs differ in the transport steps which they regulate [20,27,28,29]. Mammalian EHD1 was shown to regulate the recycling of many receptors [30], endocytosed via both clathrin [31] and non clathrin pathways [32,33]. Based on the knowledge to date, EHD1 is involved primarily in recycling 15755315 from the endocytic recycling compartment (ERC) to the plasma membrane. In addition, evidence suggests that EHD1 is involved not only in recycling to the plasma membrane, but also in transport of receptors from the early endosome to the ERC [26,34], as well as in retrograde transport from endosomes to golgi [35]. EHD3, which shares the highest level of homology with EHD1 amongst the mammalian EHD proteins, is also involved in endosome to golgi transport and appears to be required for maintenance of golgi morphology and function [36]. We previously reported the isolation and characterization of two Arabidop.Arison to HCs, only CA19-9 and MIC-1 were significantly elevated in CP patients compared to HCs. Log transformed value of NGAL was more specific than CA19-9 in distinguishing stage 3/4 PC patients from CP cases while that of MIC-1 was more sensitive (stage 1/2 PC from HCs) or specific (stage 1/2 vs CP) than CA19-9 in a subgroup specific manner. CA19-9 performed better in distinguishing PC form CP patients or HCs at a higher cut-off value than the commonly employed cut-off of 37 U/ml. A combination of MIC-1 and CA19-9 was better than the latter alone in distinguishingDiagnosis Efficacy of NGAL, MIC-1 and CA19-resectable PC from CP patients while addition of NGAL improved the ability of CA19-9 to distinguish stage 3/4 PC cases from HCs.Author ContributionsConceived and designed the experiments: SK SC KM MJB ARS SKB. Performed the experiments: SK KM MJ. Analyzed the data: LMS SK MJB KM SKB SKS. Contributed reagents/materials/analysis tools: SG REB ARS UAW. Wrote the paper: SK SC MJB SKB SKS.
Eukaryotic cells require endocytosis for uptake of extra-cellular substances and internalization of plasma membrane proteins for transport to endosomes [1]. Endocytosis regulates and is involved in many important processes, including several signaling pathways [2,3,4]. Plants require endocytosis for important processes including development [5] and defense against microorganisms [6,7]. Studies conducted in plant systems have elucidated possible functionalities of plant endocytic compartments and the flow of endocytosed material throughout plant cells [7,8,9,10,11,12,13,14]. Endocytosis depends on a large number of protein-protein interactions mediated by specific modules. One such module is the EH (Eps15 homology) domain first identified in Eps15 [15,16]. The EH domain structure generally consists of two EF-hands and a helix-loop-helix structure that binds calcium (or a pseudo EFhand), connected by an anti-parallel beta-sheet [17,18,19]. Many EH-containing proteins were identified in different species, among them EHD1-4 (EH domain containing proteins), Eps15 and Intersectin 1? [20,21,22,23]. Four EHD orthologs are known in vertebrates [24] and two in 23727046 plants [25]. All mammalian EHDs share a similar structure: An Nterminal domain with a nucleotide binding motif (P-loop), DxxG and NKxD, a central coiled coil region and a C-terminal EH domain containing an EF Ca2+ binding motif. C-terminal EH domain containing proteins are regulators of endocytic trafficking,and have been shown to associate with Rab protein effectors [24,26]. Despite their high homology (70?0 ) the mammalian EHDs differ in the transport steps which they regulate [20,27,28,29]. Mammalian EHD1 was shown to regulate the recycling of many receptors [30], endocytosed via both clathrin [31] and non clathrin pathways [32,33]. Based on the knowledge to date, EHD1 is involved primarily in recycling 15755315 from the endocytic recycling compartment (ERC) to the plasma membrane. In addition, evidence suggests that EHD1 is involved not only in recycling to the plasma membrane, but also in transport of receptors from the early endosome to the ERC [26,34], as well as in retrograde transport from endosomes to golgi [35]. EHD3, which shares the highest level of homology with EHD1 amongst the mammalian EHD proteins, is also involved in endosome to golgi transport and appears to be required for maintenance of golgi morphology and function [36]. We previously reported the isolation and characterization of two Arabidop.