David Nikolic-Paterson

Monash University

H-index: 83

Oceania-Australia

About David Nikolic-Paterson

David Nikolic-Paterson, With an exceptional h-index of 83 and a recent h-index of 40 (since 2020), a distinguished researcher at Monash University, specializes in the field of Kidney disease, macrophages, fibrosis, signalling pathways.

His recent articles reflect a diverse array of research interests and contributions to the field:

Intervention treatment reducing cellular senescence inhibits tubulointerstitial fibrosis in diabetic mice following acute kidney injury.

The secreted micropeptide C4orf48 enhances renal fibrosis via an RNA-binding mechanism

Podocyte Number Increases after Birth in Mice and Humans.

Mitochondrial micropeptide MOXI promotes fibrotic gene transcription by translocation to the nucleus and bridging N-acetyltransferase 14 with transcription factor c-Jun

Re: Neural Transcription Factor Pou4f1 Promotes Renal Fibrosis via Macrophage-Myofibroblast Transition.

Smad3 is essential for polarization of tumor-associated neutrophils in non-small cell lung carcinoma

A model of ischaemia-induced renal interstitial fibrosis in mice with established diabetes

Hypoxic injury triggers maladaptive repair in human kidney organoids

David Nikolic-Paterson Information

University	Monash University
Position	Department of Medicine and Department of Nephrology Monash Medical Centre
Citations(all)	24528
Citations(since 2020)	8270
Cited By	19305
hIndex(all)	83
hIndex(since 2020)	40
i10Index(all)	208
i10Index(since 2020)	122
Email	Access Email
University Profile Page	Monash University
Google Scholar	View Google Scholar Profile

David Nikolic-Paterson Skills & Research Interests

Kidney disease

macrophages

fibrosis

signalling pathways

Top articles of David Nikolic-Paterson

Title	Journal	Author(s)	Publication Date
Intervention treatment reducing cellular senescence inhibits tubulointerstitial fibrosis in diabetic mice following acute kidney injury.	Clinical Science	Gregory H Tesch Frank Y Ma Elyce Ozols David J Nikolic-Paterson	2024/2/23
The secreted micropeptide C4orf48 enhances renal fibrosis via an RNA-binding mechanism	The Journal of Clinical Investigation	Jiayi Yang Hongjie Zhuang Jinhua Li Ana B Nunez-Nescolarde Ning Luo ...	2024/4/16
Podocyte Number Increases after Birth in Mice and Humans.	Journal of the American Society of Nephrology	VG Puelles JW Van Der Wolde LA Cullen-McEwen PG Kerr DJ Nikolic-Paterson ...	2023/5/2
Mitochondrial micropeptide MOXI promotes fibrotic gene transcription by translocation to the nucleus and bridging N-acetyltransferase 14 with transcription factor c-Jun	Kidney International	Jinhua Li Xinli Qu Chengnong Guan Ning Luo Huiting Chen ...	2023/5/1
Re: Neural Transcription Factor Pou4f1 Promotes Renal Fibrosis via Macrophage-Myofibroblast Transition.	Journal of Urology	PM-K Tang Y-Y Zhang J Xiao PC-T Tang JY-F Chung ...	2023/6/27
Smad3 is essential for polarization of tumor-associated neutrophils in non-small cell lung carcinoma	Nature Communications	Jeff Yat-Fai Chung Philip Chiu-Tsun Tang Max Kam-Kwan Chan Vivian Weiwen Xue Xiao-Ru Huang ...	2023/3/31
A model of ischaemia-induced renal interstitial fibrosis in mice with established diabetes	Integrative Medicine in Nephrology and Andrology	Frank Y Ma Greg H Tesch Keren Grynberg Elyce Ozols William R Mulley ...	2023/6/1
Hypoxic injury triggers maladaptive repair in human kidney organoids	bioRxiv	Ana B Nunez-Nescolarde Mehran Piran Laura Perlaza-Jimenez Chris K Barlow Joel R Steele ...	2023
Mizoribine halts kidney fibrosis in childhood IgA nephropathy: association with modulation of M2-type macrophages	Pediatric Nephrology	Yohei Ikezumi Masatoshi Yoshikane Tomomi Kondoh Yuji Matsumoto Naonori Kumagai ...	2023/6
JNK Signaling in the Proximal Tubule Is Critical for Renal Ischaemia Reperfusion Injury.	Journal of the American Society of Nephrology	K Grynberg E Ozols WR Mulley FY Ma DJ Nikolic-Paterson	2023/5/2
The ability of remaining glomerular podocytes to adapt to the loss of their neighbours decreases with age	Cell and Tissue Research	James van der Wolde Kotaro Haruhara Victor G Puelles David Nikolic-Paterson John F Bertram ...	2022/5
Correction to: ASK1 is a novel molecular target for preventing aminoglycoside‑induced hair cell death	Journal of Molecular Medicine (Berlin, Germany)	Jacqueline M Ogier Yujing Gao Eileen M Dunne Michael A Wilson Sarath C Ranganathan ...	2022
Human kidney organoids and tubuloids as models of complex kidney disease		Ana B Nunez-Nescolarde David J Nikolic-Paterson Alexander N Combes	2022/5/1
Mice with established diabetes show increased susceptibility to renal ischemia/reperfusion injury: protection by blockade of Jnk or Syk signaling pathways	The American journal of pathology	Keren Grynberg Lifang Tian Greg Tesch Elyce Ozols William R Mulley ...	2022/3/1
Spleen tyrosine kinase deletion in myeloid cells reduces glomerular macrophage infiltration and glomerulosclerosis in diabetic mice.	Nephrology	E Ozols D Nikolic-Paterson G Tesch	2022/11/10
Role of the adaptive immune system in diabetic kidney disease		Lingyun Kong Sofianos Andrikopoulos Richard J MacIsaac Laura K Mackay David J Nikolic‐Paterson ...	2022/2
ASK1 is a novel molecular target for preventing aminoglycoside-induced hair cell death	Journal of Molecular Medicine	Jacqueline M Ogier Yujing Gao Eileen M Dunne Michael A Wilson Sarath C Ranganathan ...	2022/5
Immune landscape of kidney pathology	Frontiers in Physiology	Patrick Ming-Kuen Tang Haiyong Chen Ying Tang David J Nikolic-Paterson Hui Yao Lan	2022/1/25
PAR2 activation on human kidney tubular epithelial cells induces tissue factor synthesis, that enhances blood clotting	Frontiers in physiology	Abishek Iyer Tyrone LR Humphries Evan P Owens Kong-Nan Zhao Paul P Masci ...	2021/3/10
JUN amino terminal kinase in cell death and inflammation in acute and chronic kidney disease		David J Nikolic-Paterson Keren Grynberg Frank Y Ma	2021/12/1