Hypoxia-inducible Factor may Induce the Development of Liver Fibrosis in Budd–Chiari Syndrome by Regulating CD248/endosialin Expression: A Hypothesis

Hypoxia, a characteristic feature of locally advanced solid tumors, has emerged as a pivotal factor of the tumor (patho-)physiome since it can promote tumor progression and resistance to therapy. Hypoxia represents a "Janus face" in tumor biology because (a) it is associated with restrained proliferation, differentiation, necrosis or apoptosis, and (b) it can also lead to the development of an aggressive phenotype. Independent of standard prognostic factors, such as tumor stage and nodal status, hypoxia has been suggested as an adverse prognostic factor for patient outcome. Studies of tumor hypoxia involving the direct assessment of the oxygenation status have suggested worse disease-free survival for patients with hypoxic cervical cancers or soft tissue sarcomas. In head & neck cancers the studies suggest that hypoxia is prognostic for survival and local control. Technical limitations of the direct O(2) sensing technique have prompted the use of surrogate markers for tumor hypoxia, such as hypoxia-related endogenous proteins (e.g., HIF-1alpha, GLUT-1, CA IX) or exogenous bioreductive drugs. In many - albeit not in all - studies endogenous markers showed prognostic significance for patient outcome. The prognostic relevance of exogenous markers, however, appears to be limited. Noninvasive assessment of hypoxia using imaging techniques can be achieved with PET or SPECT detection of radiolabeled tracers or with MRI techniques (e.g., BOLD). Clinical experience with these methods regarding patient prognosis is so far only limited. In the clinical studies performed up until now, the lack of standardized treatment protocols, inconsistencies of the endpoints characterizing the oxygenation status and methodological differences (e.g., different immunohistochemical staining procedures) may compromise the power of the prognostic parameter used.

Hypoxia inducible transcription factors (HIFs) activate diverse pathways that regulate cellular metabolism, angiogenesis, proliferation, and migration, enabling a cell to respond to a low oxygen or hypoxic environment. HIFs are regulated by oxygen-dependent and independent signals including: mitochondrial dysfunction, reactive oxygen species, endoplasmic reticular stress, and viral infection. HIFs have been reported to play a role in the pathogenesis of liver disease of diverse aetiologies. This review explores the impact of HIFs on hepatocellular biology and inflammatory responses, highlighting the therapeutic potential of targeting HIFs for an array of liver pathologies.

Hypoxia is present to some extent in most solid malignant human cancers because of an imbalance between the limited oxygen delivery capacity of the abnormal vasculature and the high oxygen consumption of tumor cells. This drives a complex and dynamic compensatory response to enable continued cell survival, including genomic changes leading to selection of hypoxia-adapted cells with a propensity to invade locally, metastasize, and recur following surgery or radiotherapy. There is indisputable clinical evidence from numerous observational and therapeutic studies across a range of tumor types to implicate hypoxia as a key determinant of cancer behavior and treatment outcome. Despite this, hypoxia-targeted treatment has failed to influence clinical practice. This is explained, in part, by emerging findings to indicate that hypoxia is not equally important in all patients even when present to the same extent. The impact of hypoxia on patient outcome and the benefit of hypoxia-targeted treatments are greatest in situations where hypoxia is a primary biological driver of disease behavior-patients with tumors having a "hypoxic driver" phenotype. The challenge for the clinical and scientific communities moving forward is to develop robust precision cancer medicine strategies for identifying these patients in the setting of other etiologic, genomic, and host-tumor factors, considering not only the state of the tumor at diagnosis but also changing patient and tumor characteristics over time.