Philipp Kaldis

Overview

Explore the profile of Philipp Kaldis including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 124

Citations 4555

Followers 0

Related Specialties

Cell Biology

Biology

Biochemistry

Top 10 Co-Authors

Xavier Bisteau

Matias J Caldez

Cyril Berthet

Lino Tessarollo

Vincenzo Coppola

Kui Liu

Eiman Aleem

Li Na Zhao

M Kasim Diril

S Zakiah A Talib

Published In

Mol Cell Biol

Cell Cycle

J Biol Chem

Front Cell Dev Biol

Development

Affiliations

Soon will be listed here.

Recent Articles

11.

Editorial: Editor's Pick 2021: Highlights in Cell Growth and Division

Kaldis P

Front Cell Dev Biol . 2022 Mar; 10:859568. PMID: 35321243

No abstract available.

12.

Pairing structural reconstruction with catalytic competence to evaluate the mechanisms of key enzymes in the folate-mediated one-carbon pathway

Zhao L, Kaldis P

FEBS J . 2022 Mar; 290(9):2279-2291. PMID: 35303396

Mammalian metabolism comprises a series of interlinking pathways that include two major cycles: the folate and methionine cycles. The folate-mediated metabolic cycle uses several oxidation states of tetrahydrofolate to carry...

13.

Pathophysiology of type 2 diabetes and the impact of altered metabolic interorgan crosstalk

Sanches J, Zhao L, Salehi A, Wollheim C, Kaldis P

FEBS J . 2021 Nov; 290(3):620-648. PMID: 34847289

Diabetes is a complex and multifactorial disease that affects millions of people worldwide, reducing the quality of life significantly, and results in grave consequences for our health care system. In...

14.

Histidine protonation states are key in the LigI catalytic reaction mechanism

Zhao L, Mondal D, Li W, Mu Y, Kaldis P

Proteins . 2021 Jul; 90(1):123-130. PMID: 34318530

Lignin is one of the world's most abundant organic polymers, and 2-pyrone-4,6-dicarboxylate lactonase (LigI) catalyzes the hydrolysis of 2-pyrone-4,6-dicarboxylate (PDC) in the degradation of lignin. The pH has profound effects...

15.

Therapeutic targeting of the mitochondrial one-carbon pathway: perspectives, pitfalls, and potential

Zhao L, Bjorklund M, Caldez M, Zheng J, Kaldis P

Oncogene . 2021 Mar; 40(13):2339-2354. PMID: 33664451

Most of the drugs currently prescribed for cancer treatment are riddled with substantial side effects. In order to develop more effective and specific strategies to treat cancer, it is of...

16.

Protective Functions of ZO-2/Tjp2 Expressed in Hepatocytes and Cholangiocytes Against Liver Injury and Cholestasis

Xu J, Kausalya P, Van Hul N, Caldez M, Xu S, Ong A, et al.

Gastroenterology . 2021 Jan; 160(6):2103-2118. PMID: 33465371

Background & Aims: Liver tight junctions (TJs) establish tissue barriers that isolate bile from the blood circulation. TJP2/ZO-2-inactivating mutations cause progressive cholestatic liver disease in humans. Because the underlying mechanisms...

17.

Remodeling of whole-body lipid metabolism and a diabetic-like phenotype caused by loss of CDK1 and hepatocyte division

Ow J, Caldez M, Zafer G, Foo J, Li H, Ghosh S, et al.

Elife . 2020 Dec; 9. PMID: 33345777

Cell cycle progression and lipid metabolism are well-coordinated processes required for proper cell proliferation. In liver diseases that arise from dysregulated lipid metabolism, proliferation is diminished. To study the outcome...

18.

Cyclin-Dependent Kinase 1 Is Essential for Muscle Regeneration and Overload Muscle Fiber Hypertrophy

Kobayashi Y, Tanaka T, Mulati M, Ochi H, Sato S, Kaldis P, et al.

Front Cell Dev Biol . 2020 Nov; 8:564581. PMID: 33163487

Satellite cell proliferation is an essential step in proper skeletal muscle development and muscle regeneration. However, the mechanisms regulating satellite cell proliferation are relatively unknown compared to the knowledge associated...

19.

Correction for Adon et al., "Cdk2 and Cdk4 Regulate the Centrosome Cycle and Are Critical Mediators of Centrosome Amplification in p53-Null Cells"

Adon A, Zeng X, Harrison M, Sannem S, Kiyokawa H, Kaldis P, et al.

Mol Cell Biol . 2020 Nov; 40(23). PMID: 33159003

No abstract available.

20.

Loss of hepatocyte cell division leads to liver inflammation and fibrosis

Dewhurst M, Ow J, Zafer G, van Hul N, Wollmann H, Bisteau X, et al.

PLoS Genet . 2020 Nov; 16(11):e1009084. PMID: 33147210

The liver possesses a remarkable regenerative capacity based partly on the ability of hepatocytes to re-enter the cell cycle and divide to replace damaged cells. This capability is substantially reduced...